Exemple #1
0
def get_running_ips(aws_region):
    ##### Get all regions
    ec2 = boto3.client('ec2', region_name='us-east-1')
    regionList = []
    response = ec2.describe_regions()
    regions = response['Regions']
    for r in regions:
        regionList.append(r['RegionName'])

    ##### Get running IPs for all regions
    running_ips = []
    for region in regionList:
        ec2 = boto3.client('ec2', region_name=region)
        reservations = ec2.describe_instances()['Reservations']
        for reservation in reservations:
            for instance in reservation['Instances']:
                try:
                    if instance['State']['Name'] == 'running':
                        if 'VpcId' in instance:
                            running_ips.append(instance['PrivateIpAddress'])
                        else:
                            running_ips.append(instance['PublicIpAddress'])
                except:
                        pass

    return running_ips
def test_volume_size_through_cloudformation():
    ec2 = boto3.client("ec2", region_name="us-east-1")
    cf = boto3.client("cloudformation", region_name="us-east-1")

    tag_value = str(uuid4())
    volume_template = {
        "AWSTemplateFormatVersion": "2010-09-09",
        "Resources": {
            "testInstance": {
                "Type": "AWS::EC2::Instance",
                "Properties": {
                    "ImageId":
                    EXAMPLE_AMI_ID,
                    "KeyName":
                    "dummy",
                    "InstanceType":
                    "t2.micro",
                    "BlockDeviceMappings": [{
                        "DeviceName": "/dev/sda2",
                        "Ebs": {
                            "VolumeSize": "50"
                        }
                    }],
                    "Tags": [
                        {
                            "Key": "foo",
                            "Value": "bar"
                        },
                        {
                            "Key": "blah",
                            "Value": tag_value
                        },
                    ],
                },
            }
        },
    }
    template_json = json.dumps(volume_template)

    stack_name = str(uuid4())[0:6]
    cf.create_stack(StackName=stack_name, TemplateBody=template_json)

    resource = cf.list_stack_resources(
        StackName=stack_name)["StackResourceSummaries"][0]
    resource.should.have.key("LogicalResourceId").being.equal("testInstance")
    resource.should.have.key("PhysicalResourceId").shouldnt.be.none
    resource.should.have.key("ResourceType").being.equal("AWS::EC2::Instance")

    instances = ec2.describe_instances(
        InstanceIds=[resource["PhysicalResourceId"]])

    volume = instances["Reservations"][0]["Instances"][0][
        "BlockDeviceMappings"][0]["Ebs"]

    volumes = ec2.describe_volumes(VolumeIds=[volume["VolumeId"]])
    volumes["Volumes"][0]["Size"].should.equal(50)
Exemple #3
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def test_volume_size_through_cloudformation():
    ec2 = boto3.client("ec2", region_name="us-east-1")
    cf = boto3.client("cloudformation", region_name="us-east-1")

    volume_template = {
        "AWSTemplateFormatVersion": "2010-09-09",
        "Resources": {
            "testInstance": {
                "Type": "AWS::EC2::Instance",
                "Properties": {
                    "ImageId":
                    EXAMPLE_AMI_ID,
                    "KeyName":
                    "dummy",
                    "InstanceType":
                    "t2.micro",
                    "BlockDeviceMappings": [{
                        "DeviceName": "/dev/sda2",
                        "Ebs": {
                            "VolumeSize": "50"
                        }
                    }],
                    "Tags": [
                        {
                            "Key": "foo",
                            "Value": "bar"
                        },
                        {
                            "Key": "blah",
                            "Value": "baz"
                        },
                    ],
                },
            }
        },
    }
    template_json = json.dumps(volume_template)
    cf.create_stack(StackName="test_stack", TemplateBody=template_json)
    instances = ec2.describe_instances()
    volume = instances["Reservations"][0]["Instances"][0][
        "BlockDeviceMappings"][0]["Ebs"]

    volumes = ec2.describe_volumes(VolumeIds=[volume["VolumeId"]])
    volumes["Volumes"][0]["Size"].should.equal(50)
def get_running_instances(region):
    for ses in ['default', 'ci', 'dev', 'siva']:
        boto3.setup_default_session(profile_name=ses)
        ec2 = boto3.client('ec2', region)
        reservations = ec2.describe_instances()
        for reservation in reservations["Reservations"]:
            for instance in reservation["Instances"]:
                if instance["State"]["Name"] == "running":
                    if not instance.has_key('SpotInstanceRequestId'):
                        for tagname in instance["Tags"]:
                            if tagname["Key"] == "Name":
                                if instance["InstanceType"] in final:
                                    final[instance["InstanceType"]] = final[
                                        instance["InstanceType"]] + 1
                                else:
                                    final[instance["InstanceType"]] = 1
    for key, value in final.viewitems():
        # print region, ":", key, value
        running[region][key] = value
def test_single_instance_with_ebs_volume():
    template_json = json.dumps(single_instance_with_ebs_volume.template)
    cf = boto3.client("cloudformation", region_name="us-west-1")
    stack_name = str(uuid4())[0:6]
    cf.create_stack(
        StackName=stack_name,
        TemplateBody=template_json,
        Parameters=[{
            "ParameterKey": "KeyName",
            "ParameterValue": "key_name"
        }],
    )
    resources = cf.list_stack_resources(
        StackName=stack_name)["StackResourceSummaries"]
    instance_id = [
        r["PhysicalResourceId"] for r in resources
        if r["ResourceType"] == "AWS::EC2::Instance"
    ][0]
    volume_id = [
        r["PhysicalResourceId"] for r in resources
        if r["ResourceType"] == "AWS::EC2::Volume"
    ][0]

    ec2 = boto3.client("ec2", region_name="us-west-1")
    ec2_instance = ec2.describe_instances(
        InstanceIds=[instance_id])["Reservations"][0]["Instances"][0]

    volumes = ec2.describe_volumes(VolumeIds=[volume_id])["Volumes"]
    # Grab the mounted drive
    volume = [
        volume for volume in volumes
        if volume["Attachments"][0]["Device"] == "/dev/sdh"
    ][0]
    volume["State"].should.equal("in-use")
    volume["Attachments"][0]["InstanceId"].should.equal(
        ec2_instance["InstanceId"])
def test_vpc_single_instance_in_subnet():
    template_json = json.dumps(vpc_single_instance_in_subnet.template)
    cf = boto3.client("cloudformation", region_name="us-west-1")
    stack_name = str(uuid4())[0:6]
    cf.create_stack(
        StackName=stack_name,
        TemplateBody=template_json,
        Parameters=[{
            "ParameterKey": "KeyName",
            "ParameterValue": "my_key"
        }],
    )

    ec2 = boto3.client("ec2", region_name="us-west-1")

    stack = cf.describe_stacks(StackName=stack_name)["Stacks"][0]

    resources = cf.list_stack_resources(
        StackName=stack_name)["StackResourceSummaries"]
    vpc_id = [
        resource for resource in resources
        if resource["ResourceType"] == "AWS::EC2::VPC"
    ][0]["PhysicalResourceId"]

    vpc = ec2.describe_vpcs(VpcIds=[vpc_id])["Vpcs"][0]
    vpc["CidrBlock"].should.equal("10.0.0.0/16")
    vpc["Tags"].should.contain({
        "Key": "Application",
        "Value": stack["StackId"]
    })

    security_group = ec2.describe_security_groups(
        Filters=[{
            "Name": "vpc-id",
            "Values": [vpc["VpcId"]]
        }])["SecurityGroups"][0]
    security_group["VpcId"].should.equal(vpc["VpcId"])

    subnet_id = [
        resource for resource in resources
        if resource["ResourceType"] == "AWS::EC2::Subnet"
    ][0]["PhysicalResourceId"]

    subnet = ec2.describe_subnets(SubnetIds=[subnet_id])["Subnets"][0]
    subnet["VpcId"].should.equal(vpc["VpcId"])

    instance_id = [
        resource for resource in resources
        if resource["ResourceType"] == "AWS::EC2::Instance"
    ][0]["PhysicalResourceId"]
    res = ec2.describe_instances(InstanceIds=[instance_id])["Reservations"][0]
    instance = res["Instances"][0]
    instance["Tags"].should.contain({"Key": "Foo", "Value": "Bar"})

    eip_id = [
        resource for resource in resources
        if resource["ResourceType"] == "AWS::EC2::EIP"
    ][0]["PhysicalResourceId"]
    eip = ec2.describe_addresses(PublicIps=[eip_id])["Addresses"][0]
    eip["Domain"].should.equal("vpc")
    eip["InstanceId"].should.equal(instance["InstanceId"])
Exemple #7
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#
## Utilities
#

    def block_until_running(self, instances):
        ''' Blocks until all defined instances have reached running state and an ip has been assigned'''
        ## Run describe instances until everyone is running
        tmpinstances = instances
        instances = []
        while len(tmpinstances) > 0:
            time.sleep(30)
            print "Waiting for", len(tmpinstances), "instances."
            sys.stdout.flush()
            all_running_instances = self.describe_instances("running")
            #            print all_running_instances
            #            print tmpinstances
            for i in range(0, len(all_running_instances)):
                for j in range(0, len(tmpinstances)):
                    if (all_running_instances[i].id == tmpinstances[j].id
                        ) and (not (all_running_instances[i].public_dns_name
                                    == "0.0.0.0")):
                        tmpinstances.pop(j)
                        instances.append(all_running_instances[i])
                        break
        self.describe_instances()
        return instances

if __name__ == "__main__":
    ec2 = EC2Cluster()
    ec2.describe_instances("cluster")