def get_values(event):
region = None
if 'region' in event:
region = event['region']
modules_process = []
if 'custom' not in event:
beanstalk = Beanstalk()
modules_process.append(beanstalk.run(region))
ec2 = EC2()
modules_process.append(ec2.run(region))
rds = RDS()
modules_process.append(rds.run(region))
ssm = SSM()
modules_process.append(ssm.run(region))
ses = SES()
modules_process.append(ses.run(region))
elasticache = Elasticache()
modules_process.append(elasticache.run(region))
else:
data = str(event['custom'])
if 'BEANSTALK' in data:
beanstalk = Beanstalk()
modules_process.append(beanstalk.run(region))
if 'INSTANCES' in data:
ec2 = EC2()
modules_process.append(ec2.run(region))
if 'SSM' in data:
ssm = SSM()
modules_process.append(ssm.run(region))
if 'ELASTICACHE' in data:
elasticache = Elasticache()
modules_process.append(elasticache.run(region))
if 'RDS' in data:
rds = RDS()
modules_process.append(rds.run(region))
if 'SES' in data:
ses = SES()
modules_process.append(ses.run(region))
start_all(modules_process)
wait_all(modules_process)
ret_dict = read_all(modules_process)
return ret_dict
def get_aws_describe_instances(self):
ec2_list = []
session = boto3.Session()
ec2 = session.resource('ec2')
instances = ec2.instances.filter()
for instance in instances:
availability_zone = instance.placement["AvailabilityZone"]
state = instance.state['Name']
tags = instance.tags[0]['Value']
try:
account_number = instance.network_interfaces_attribute[0][
'OwnerId']
account_name = Account.map_account_name_to_account_number(
account_number)
pu = Account.map_pu_to_account(account_number)
except Exception as e:
pass
if state == "running":
ec2 = EC2(availability_zone, instance.id,
instance.instance_type, instance.launch_time, state,
instance.ebs_optimized, tags, account_number, pu,
account_name)
ec2_list.append(ec2)
return ec2_list
def test_node_property(self, boto3, node_ssh_commands):
subject = EC2('Amazon')
subject.node.shell()
self.mock_node_ssh_commands.assert_called_with(subject.get_external_ip)
self.mock_node_ssh_commands.return_value.shell.assert_called_with()
def populateregion(profilename, regionname):
region = Region(regionname)
region.name = regionname
vpcs = Vpc.loaddata(profilename, regionname)
eips = ElasticIp.loaddata(profilename, regionname)
instances = EC2.loaddata(profilename, regionname)
region.elasticips = eips
region.instances = instances
region.vpcs = vpcs
subnets = Subnet.loaddata(profilename, regionname)
region.subnets = subnets
loadbalancers = ElasticLoadBalancer.loaddata(profilename, regionname)
region.elasticloadbalancers = loadbalancers
region.linksubnetstovpcs()
# writetoyaml(account)
return region
def describe_instances():
ec2_client = EC2Client().get_client()
ec2 = EC2(ec2_client)
ec2_response = ec2.describe_ec2_instances()
print(str(ec2_response))
def test_get_external_ip(self, boto3, printing, time, mocker):
subject = EC2('Thor')
result = subject.get_external_ip()
assert self.mock_print.mock_calls == [
mocker.call(
'\t\tWaiting for external IP for Thor EC2 instance...'),
mocker.call('\t\tdone.')
]
self.mock_time.sleep.assert_called_with(1)
assert result == '1.2.3.4'
def exec_action(action, env):
"""
:param access_key:
:param secret_key:
:param action: start or stop
:param env: env name
:return: None
"""
ec2 = EC2(action, env)
ec2.exec_ec2_action()
return None
def main():
logging.basicConfig(
format=
"%(asctime)-15s %(levelname)s %(filename)s:%(funcName)s#%(lineno)d - %(message)s",
level=logging.ERROR)
logger = logging.getLogger("app")
logger.setLevel(logging.DEBUG)
logger.info("started")
ec2 = EC2(region=REGION)
ec2.generateCSV()
logger.info("finished")
def test_restart_instance(self, mocker, printing, time, boto3):
subject = EC2('Thor')
subject.restart_instance()
assert self.mock_print.mock_calls == [
mocker.call('\tRestarting Thor EC2 instance'),
mocker.call(
"\t\tWaiting for Thor EC2 instance to reach a state in ['running', 'stopped']..."
),
mocker.call('\t\tdone.')
]
self.mock_time.sleep.assert_called_with(1)
self.mock_boto3.client.return_value.reboot_instances.assert_called_with(
InstanceIds=['foo'])
def __init__(self, scope: core.Construct, id: str, **kwargs) -> None:
super().__init__(scope, id, **kwargs)
VPC = ec2.Vpc(self,
"vpc",
cidr="10.0.0.0/22",
max_azs=2,
nat_gateways=1)
if self.node.try_get_context("envoy_ec2"):
print("Will deploy the Envoy@EC2 stack")
EC2(self, VPC)
if self.node.try_get_context("envoy_eks") or self.node.try_get_context(
"ingress"):
print("Will create the EKS Cluster")
EKS(self, VPC)
def get_aws_describe_instances(self,account):
ec2_list = []
session = boto3.Session()
ec2 = session.resource('ec2')
instances = ec2.instances.filter()
for instance in instances:
availability_zone = instance.placement["AvailabilityZone"]
state = instance.state['Name']
if state == "running":
ec2 = EC2(availability_zone, instance.id, instance.instance_type, instance.launch_time, state, instance.ebs_optimized, account.account_number, account.department, account.account_name)
ec2_list.append(ec2)
return ec2_list
def create_db_security_group_and_add_rules(self):
ec2_client = EC2Client().get_client()
ec2 = EC2(ec2_client)
# create security group
security_group = ec2.create_security_group()
# get id of the sg
security_group_id = security_group['GroupId']
print("Created RDS security group with id " + security_group_id)
# add public access rule to sg
ec2.add_inbound_rule_to_sg(security_group_id)
print("Added inbound public access rule to sg with id " + security_group_id)
return security_group_id
def create_db_security_group_and_rules(self):
ec2_client = ECSClient().get_client()
ec2 = EC2(ec2_client)
# Security group
security_group = ec2.create_security_group()
# get id of sg
security_group_id = security_group['GroupId']
print(f"created RD with security group {security_group_id}")
# add public access rule to sg
ec2.add_inbound_rule_to_sg(security_group_id)
print(
f'Added inbound public access rule to sg with id ={security_group_id}'
)
return security_group_id
def main():
template = Template()
template.add_description("Example Server")
for key, value in Mappings().mappings.iteritems():
template.add_mapping(key, value)
parameters = Parameters()
for param in parameters.values():
template.add_parameter(param)
template.add_metadata({
"AWS::CloudFormation::Interface": {
"ParameterGroups": [
{
"Label": {
"default": "Required parameters."
},
"Parameters": [
"DBPassword",
"KeyPair",
]
},
{
"Label": {
"default": "Advanced: Database and instance"
},
"Parameters": [
"DBInstanceType", "DBStorageSize", "DBBackupRetention",
"EC2InstanceType"
]
},
],
"ParameterLabels": {
"DBPassword": {
"default": "Choose a database password"
},
"DBStorageSize": {
"default": "Database storage (advanced)"
},
"DBBackupRetention": {
"default": "How long to keep backups (advanced)"
},
"DBInstanceType": {
"default": "Database instance class (advanced)"
},
"KeyPair": {
"default": "Choose a key pair"
},
"EC2InstanceType": {
"default": "Instance class (advanced)"
},
}
}
})
vpc = VPC()
for res in vpc.values():
template.add_resource(res)
elb = LoadBalancer(vpc=vpc)
for res in elb.values():
template.add_resource(res)
db = Database(parameters=parameters, vpc=vpc, loadbalancer=elb)
for res in db.values():
template.add_resource(res)
ec2 = EC2(parameters=parameters, vpc=vpc, loadbalancer=elb)
for res in ec2.values():
template.add_resource(res)
template.add_output(
Output("LoadBalancerDNSName",
Value=GetAtt(elb.load_balancer, "DNSName")))
print(template.to_json())
def main():
# Create a VPC
ec2_client = EC2Client().get_client()
vpc = VPC(ec2_client)
vpc_response = vpc.create_vpc()
print('VPC created:' + str(vpc_response))
# Add name tag to VPC
vpc_name = 'Boto3-VPC'
vpc_id = vpc_response['Vpc']['VpcId']
vpc.add_name_tag(vpc_id, vpc_name)
print('Added ' + vpc_name + ' to ' + vpc_id)
# Create an IGW
igw_response = vpc.create_internet_gateway()
igw_id = igw_response['InternetGateway']['InternetGatewayId']
vpc.attach_igw_to_vpc(vpc_id, igw_id)
# Create a public subnet
public_subnet_response = vpc.create_subnet(vpc_id, '10.0.1.0/24')
public_subnet_id = public_subnet_response['Subnet']['SubnetId']
print('Subnet created for VPC ' + vpc_id + ':' +
str(public_subnet_response))
# Add name tag to Public Subnet
vpc.add_name_tag(public_subnet_id, 'Boto3-Public-Subnet')
# Create a public route table
public_route_table_response = vpc.create_public_route_table(vpc_id)
rtb_id = public_route_table_response['RouteTable']['RouteTableId']
# Adding the IGW to public route table
vpc.create_igw_route_to_public_route_table(rtb_id, igw_id)
# Associate Public Subnet with Route Table
vpc.associate_subnet_with_route_table(public_subnet_id, rtb_id)
# Allow auto-assign public ip addresses for subnet
vpc.allow_auto_assign_ip_addresses_for_subnet(public_subnet_id)
# Create a Private Subnet
private_subnet_response = vpc.create_subnet(vpc_id, '10.0.2.0/24')
private_subnet_id = private_subnet_response['Subnet']['SubnetId']
print('Created private subnet ' + private_subnet_id + ' for VPC ' + vpc_id)
# Add name tag to private subnet
vpc.add_name_tag(private_subnet_id, 'Boto3-Private-Subnet')
# EC2 Instances
ec2 = EC2(ec2_client)
# Create a key pair
key_pair_name = 'Boto3-KeyPair'
key_pair_response = ec2.create_key_pair(key_pair_name)
print('Created Key Pair with name ' + key_pair_name + ':' +
str(key_pair_response))
# Create a Security Group
public_security_group_name = 'Boto3-Public-SG'
public_security_group_description = 'Public Security Group for Public Subnet Internet Access'
public_security_group_response = ec2.create_security_group(
public_security_group_name, public_security_group_description, vpc_id)
public_security_group_id = public_security_group_response['GroupId']
# Add Public Access to Security Group
ec2.add_inbound_rule_to_sg(public_security_group_id)
print('Added public access rule to Security Group ' +
public_security_group_name)
user_data = """#!/bin/bash
yum update -y
yum install httpd24 -y
service httpd start
chkconfig httpd on
echo "<html><body><h1>Hello from <b>Boto3</b> using Python!</h1></body></html>" > /var/www/html/index.html"""
ami_id = 'ami-1b316af0'
# Launch a public EC2 Instance
ec2.launch_ec2_instance(ami_id, key_pair_name, 1, 1,
public_security_group_id, public_subnet_id,
user_data)
print('Launching Public EC2 Instance using AMI ' + ami_id)
# Adding another Security Group for Private EC2 Instance
private_security_group_name = 'Boto3-Private-SG'
private_security_group_description = 'Private Security Group for Private Subnet'
private_security_group_response = ec2.create_security_group(
private_security_group_name, private_security_group_description,
vpc_id)
private_security_group_id = private_security_group_response['GroupId']
# Add rule to private security group
ec2.add_inbound_rule_to_sg(private_security_group_id)
# Launch a private EC2 Instance
ec2.launch_ec2_instance(ami_id, key_pair_name, 1, 1,
private_security_group_id, private_subnet_id,
"""""")
print('Launching Private EC2 Instance using AMI' + ami_id)
def terminate_instance():
ec2_client = EC2Client().get_client()
ec2 = EC2(ec2_client)
ec2.terminate_instance('i-049f27f4be7441270')
def start_instance():
ec2_client = EC2Client().get_client()
ec2 = EC2(ec2_client)
ec2.start_instance('i-049f27f4be7441270')
def modify_instance():
ec2_client = EC2Client().get_client()
ec2 = EC2(ec2_client)
ec2.modify_ec2_instance('i-01560b6cd12a884a1')
def test_construction(self, boto3):
subject = EC2('Thor')
self.mock_boto3.client.assert_called_with('ec2', EC2_CONFIG['region'])
assert subject.name == 'Thor'
assert subject.ip == ''
load_balancer_name = 'my-lb'
key_pair_obj_nv = KeyPair(ec2_nv_key_name, 'us-east-1', session)
key_pair_obj_oh = KeyPair(ec2_oh_key_name, 'us-east-2', session)
try:
key_pair_obj_nv.create()
except:
print("key pair already exists in North Virginia")
try:
key_pair_obj_oh.create()
except:
print("key pair already exists in Ohio")
## Ohio __init__
ec2_ohio = EC2(ubuntu20_ohio_img, ec2_oh_key_name, 't2.micro', 'us-east-2',
'secgroup-teste', script_database, session)
ohio_subnets_ids, oh_vpc_ids = ec2_ohio.describe_subnets()
print("creating database instance...")
ec2_id_ohio = ec2_ohio.create_instances(1)
print("Status - OK")
## reload é necessário para pegar o ip das instancias
ec2_id_ohio[0].reload()
database_ip = ec2_id_ohio[0].public_ip_address
script_machines = f"""#!/bin/bash
sudo apt update
sudo apt install python3-dev libpq-dev python3-pip -y
cd /home/ubuntu
git clone https://github.com/pedromtelho/tasks.git
sudo sed -i "83 c 'HOST' : '{database_ip}'," tasks/portfolio/settings.py
def test_dns_property(self, boto3, dns_ssh_commands):
subject = EC2('Amazon')
self.mock_dns_ssh_commands.assert_called_with(subject.get_external_ip)
