Boto 3 for EC2¶
Creating VMs - Creating Volumes - Attaching Volumes to VMs¶
This is a walk-through section for a script that does the following: - Creates a connection to your AWS-compatible Zadara region. - Creates a VM instance. - Creates a volume. - Attaches the volume to the VM instance.
Note
In the examples in this section, variables are enclosed in <angle_brackets>.
Start by importing the ``boto3`` and ``sys`` packages:
import boto3 import sys
Define a ``main()`` function:
def main(): """ This script shows an example of Boto3 integration with Zadara Cloud Services. The scenario is as follows: 1. Instantiate an instance from an AMI. 2. Create a 20 GB volume. 3. Attach the volume to the created AMI. """
Create a connection to your Zadara region.
This snippet creates the connection by using the boto
Sessionresource to create a custom session. This custom session contains the following configuration values and credentials:Service name: In order to create VMs, set the service name to
ec2.Region: When connecting to Zadara, set the region name to
symphony.Endpoint URL: This is the IP of the installed Zadara region, followed by
/api/v2/ec2/.AWS access key and secret access key: These are the keys from the Zadara Cloud Services GUI.
Note
Although the keys are hard coded strings in this example, the best practice is to configure these credentials using environment variables, a shared credentials file, or other methods described in the boto documentation.
# creating a connection to Zadara Cloud Services AWS Compatible region client = boto3.Session.client(boto3.session.Session(), service_name="ec2", region_name="symphony", endpoint_url="https://<cluster ip>/api/v2/ec2/", verify=False, aws_access_key_id="<key>", aws_secret_access_key="<secret>")
Get the image ID of the image to use with the VM instance to be created. This is the image that was uploaded using the Zadara Cloud Services UI.
To do this, first use the EC2
describe_images()method to list the images in the Zadara Cloud Service.Then search the list of images to find the image whose
Nameattribute matches the name your image was given when it was uploaded through the Zadara Cloud Services UI. In this example, assume you named your image centos.Once the image to use is found, retrieve the image ID stored in its
ImageIdattribute and print out a status message.# finding our Centos image, grabbing its image ID images = client.describe_images() image_id = next(image['ImageId'] for image in images if 'centos' in image['Name'] print "Found desired image with ID: " + image_id
Create a new VM. To do this, use the
run_instances()method, passing the image ID and count values. Print out a status message.# running a new instance using our Centos image ID ec2_instance = client.run_instances( ImageId=image_id, MinCount=1, MaxCount=1 )
- # check if EC2 instance was created successfully
- if ec2_instance[‘ResponseMetadata’][‘HTTPStatusCode’] == 200:
print “Successfully created instance! ” + ec2_instance[‘Instances’][0][‘InstanceId’]
Create a volume, using the
create_volume()method. Note that you need to set theAvailabilityZonetosymphony. Get the volume ID of the newly created volume and assign it to thevolume_idvariable. Print a status message.# create an EBS volume, 20G size ebs_vol = client.create_volume( Size=20, AvailabilityZone='symphony' volume_id = ebs_vol['VolumeId # check that the EBS volume has been created successfully if ebs_vol['ResponseMetadata']['HTTPStatusCode'] == 200: print "Successfully created Volume! " + volume_id
Attach the volume to the VM, using the
attach_volume()method. Pass in theVolumeIdand the VM’sInstanceId. Set theDevicename to/dev/sdm.# attaching EBS volume to our EC2 instance attach_resp = client.attach_volume( VolumeId=volume_id, InstanceId=ec2_instance['Instances'][0]['InstanceId'], Device='/dev/sdm' )
Exit.
if __name__ == '__main__': sys.exit(main(sys.argv[1:]))
Full Script for Creating VMs¶
import boto3
import s
def main():
"""
This script shows and example of Boto3 integration with Zadara Cloud Services.
The scenario is as such:
1. Instantiate an instance from an AMI,
2. Create a 20 GB volume,
3. Attach the volume to the created AMI.
"
# creating a connection to Zadara Cloud Services AWS Compatible region
client = boto3.Session.client(boto3.session.Session(), service_name="ec2", region_name="symphony",
endpoint_url="https://<cluster ip>/api/v2/ec2/",
verify=False,
aws_access_key_id="<key>",
aws_secret_access_key="<secret>
# finding our Centos image, grabbing its image ID
images = client.describe_images()
image_id = next(image['ImageId'] for image in images if 'centos' in image['Name'
print "Found desired image with ID: " + image_
# running a new instance using our Centos image ID
ec2_instance = client.run_instances(
ImageId=image_id,
MinCount=1,
MaxCount=1
# check if EC2 instance was created successfully
if ec2_instance['ResponseMetadata']['HTTPStatusCode'] == 200:
print "Successfully created instance! " + ec2_instance['Instances'][0]['InstanceId
# create an EBS volume, 20G size
ebs_vol = client.create_volume(
Size=20,
AvailabilityZone='symphony'
volume_id = ebs_vol['VolumeId
# check that the EBS volume had been created successfully
if ebs_vol['ResponseMetadata']['HTTPStatusCode'] == 200:
print "Successfully created Volume! " + volume_
# attaching EBS volume to our EC2 instance
attach_resp = client.attach_volume(
VolumeId=volume_id,
InstanceId=ec2_instance['Instances'][0]['InstanceId'],
Device='/dev/sdm'
)
if __name__ == '__main__':
sys.exit(main(sys.argv[1:]))
Creating VPCs and Security Groups¶
This snippet displays how to do the following:
Create a Virtual Private Cloud (VPC) and subnet.
Create a security group with ingress rules.
Create a VM that resides in the subnet and uses the security group.
# create VPC
vpc = boto.create_vpc(CidrBlock='10.0.0.0/24')
vpc_id = vpc['Vpc']['VpcId']
# create subnet
subnet = boto.create_subnet(VpcId=vpc_id, CidrBlock='10.0.0.0/24')
# create security group
response = boto.create_security_group(GroupName='my_group_name', Description='my_description', VpcId=vpc_id)
security_group_id = response['GroupId']
# add two ingress rules to the newly created security group,
# CIDR notation "0.0.0.0/0" allows access from anywhere
boto.authorize_security_group_ingress(GroupId=security_group_id, IpPermissions=},
{'FromPort': 4000, 'ToPort': 4000, 'IpProtocol': 'tcp', 'IpRanges': [{'CidrIp': '0.0.0.0/0'}]}])
# create instance assuming that the image id is image_id
i1 = self.boto.run_instances(ImageId=image_id, MinCount=1, MaxCount=1,
NetworkInterfaces=[{'SubnetId': subnet_id, 'Groups': , 'DeviceIndex': 0}])
Creating Key Pairs and Floating IPs¶
This snippet displays how to create a key pair and floating IP address.
# create a new key pair for your account
key = boto.create_key_pair(KeyName="my_key_name")
# get the unencrypted PEM encoded RSA private key
# these will later be added to the machine
# from which to access the instance
pem = key['KeyMaterial']
i1 = boto.run_instances(KeyName='my_key_name', ImageId=image_id, MinCount=1, MaxCount=1,
NetworkInterfaces=[{'SubnetId': subnet_id, 'Groups': , 'DeviceIndex': 0}])
# create a floating IP in our VPC
allocation = sboto.allocate_address(Domain='vpc')
allocation_id = allocation['AllocationId']
# associate address with instance after getting its ID
boto.associate_address(InstanceId=i1_instance_id, allocation_id)
Boto 3 Quick Ref for EC2¶
import boto
client = boto3.client('ec2')
+-----------------------------------------------------------------------------------------------------------------------------------------------+
| Commonly used methods |
+===============================================================================================================================================+
| `run_instances <http://boto3.readthedocs.io/en/latest/reference/services/ec2.html#EC2.Client.run_instances>`__ (create one or more instances) |
+-----------------------------------------------------------------------------------------------------------------------------------------------+
| `describe_instances <http://boto3.readthedocs.io/en/latest/reference/services/ec2.html#EC2.Client.describe_instances>`__ |
+-----------------------------------------------------------------------------------------------------------------------------------------------+
| `start_instances <http://boto3.readthedocs.io/en/latest/reference/services/ec2.html#EC2.Client.start_instances>`__ |
+-----------------------------------------------------------------------------------------------------------------------------------------------+
| `stop_instances <http://boto3.readthedocs.io/en/latest/reference/services/ec2.html#EC2.Client.stop_instances>`__ |
+-----------------------------------------------------------------------------------------------------------------------------------------------+
| `reboot_instances <http://boto3.readthedocs.io/en/latest/reference/services/ec2.html#EC2.Client.reboot_instances>`__ |
+-----------------------------------------------------------------------------------------------------------------------------------------------+
| `terminate_instances <http://boto3.readthedocs.io/en/latest/reference/services/ec2.html#EC2.Client.terminate_instances>`__ |
+-----------------------------------------------------------------------------------------------------------------------------------------------+
| `create_volume <http://boto3.readthedocs.io/en/latest/reference/services/ec2.html#EC2.Client.create_volume>`__ |
+-----------------------------------------------------------------------------------------------------------------------------------------------+
| `attach_volume <http://boto3.readthedocs.io/en/latest/reference/services/ec2.html#EC2.Client.attach_volume>`__ |
+-----------------------------------------------------------------------------------------------------------------------------------------------+
| `create_image <http://boto3.readthedocs.io/en/latest/reference/services/ec2.html#EC2.Client.create_image>`__ |
+-----------------------------------------------------------------------------------------------------------------------------------------------
Note
Other EC2 methods are documented here.