from __future__ import unicode_literals # Ensure 'assert_raises' context manager support for Python 2.6 import pytest import boto3 import boto import boto.vpc from boto.exception import EC2ResponseError from botocore.exceptions import ParamValidationError, ClientError import sure # noqa import random from moto import mock_ec2, mock_ec2_deprecated @mock_ec2_deprecated def test_subnets(): ec2 = boto.connect_ec2("the_key", "the_secret") conn = boto.connect_vpc("the_key", "the_secret") vpc = conn.create_vpc("10.0.0.0/16") subnet = conn.create_subnet(vpc.id, "10.0.0.0/18") all_subnets = conn.get_all_subnets() all_subnets.should.have.length_of(1 + len(ec2.get_all_zones())) conn.delete_subnet(subnet.id) all_subnets = conn.get_all_subnets() all_subnets.should.have.length_of(0 + len(ec2.get_all_zones())) with pytest.raises(EC2ResponseError) as cm: conn.delete_subnet(subnet.id) cm.exception.code.should.equal("InvalidSubnetID.NotFound") cm.exception.status.should.equal(400) cm.exception.request_id.should_not.be.none @mock_ec2_deprecated def test_subnet_create_vpc_validation(): conn = boto.connect_vpc("the_key", "the_secret") with pytest.raises(EC2ResponseError) as cm: conn.create_subnet("vpc-abcd1234", "10.0.0.0/18") cm.exception.code.should.equal("InvalidVpcID.NotFound") cm.exception.status.should.equal(400) cm.exception.request_id.should_not.be.none @mock_ec2_deprecated def test_subnet_tagging(): conn = boto.connect_vpc("the_key", "the_secret") vpc = conn.create_vpc("10.0.0.0/16") subnet = conn.create_subnet(vpc.id, "10.0.0.0/18") subnet.add_tag("a key", "some value") tag = conn.get_all_tags()[0] tag.name.should.equal("a key") tag.value.should.equal("some value") # Refresh the subnet subnet = conn.get_all_subnets(subnet_ids=[subnet.id])[0] subnet.tags.should.have.length_of(1) subnet.tags["a key"].should.equal("some value") @mock_ec2_deprecated def test_subnet_should_have_proper_availability_zone_set(): conn = boto.vpc.connect_to_region("us-west-1") vpcA = conn.create_vpc("10.0.0.0/16") subnetA = conn.create_subnet(vpcA.id, "10.0.0.0/24", availability_zone="us-west-1b") subnetA.availability_zone.should.equal("us-west-1b") @mock_ec2 def test_availability_zone_in_create_subnet(): ec2 = boto3.resource("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="172.31.0.0/16") subnet = ec2.create_subnet( VpcId=vpc.id, CidrBlock="172.31.48.0/20", AvailabilityZoneId="use1-az6" ) subnet.availability_zone_id.should.equal("use1-az6") @mock_ec2 def test_default_subnet(): ec2 = boto3.resource("ec2", region_name="us-west-1") default_vpc = list(ec2.vpcs.all())[0] default_vpc.cidr_block.should.equal("172.31.0.0/16") default_vpc.reload() default_vpc.is_default.should.be.ok subnet = ec2.create_subnet( VpcId=default_vpc.id, CidrBlock="172.31.48.0/20", AvailabilityZone="us-west-1a" ) subnet.reload() subnet.map_public_ip_on_launch.shouldnt.be.ok @mock_ec2_deprecated def test_non_default_subnet(): vpc_cli = boto.vpc.connect_to_region("us-west-1") # Create the non default VPC vpc = vpc_cli.create_vpc("10.0.0.0/16") vpc.is_default.shouldnt.be.ok subnet = vpc_cli.create_subnet(vpc.id, "10.0.0.0/24") subnet = vpc_cli.get_all_subnets(subnet_ids=[subnet.id])[0] subnet.mapPublicIpOnLaunch.should.equal("false") @mock_ec2 def test_boto3_non_default_subnet(): ec2 = boto3.resource("ec2", region_name="us-west-1") # Create the non default VPC vpc = ec2.create_vpc(CidrBlock="10.0.0.0/16") vpc.reload() vpc.is_default.shouldnt.be.ok subnet = ec2.create_subnet( VpcId=vpc.id, CidrBlock="10.0.0.0/24", AvailabilityZone="us-west-1a" ) subnet.reload() subnet.map_public_ip_on_launch.shouldnt.be.ok @mock_ec2 def test_modify_subnet_attribute_public_ip_on_launch(): ec2 = boto3.resource("ec2", region_name="us-west-1") client = boto3.client("ec2", region_name="us-west-1") # Get the default VPC vpc = list(ec2.vpcs.all())[0] subnet = ec2.create_subnet( VpcId=vpc.id, CidrBlock="172.31.48.0/20", AvailabilityZone="us-west-1a" ) # 'map_public_ip_on_launch' is set when calling 'DescribeSubnets' action subnet.reload() # For non default subnet, attribute value should be 'False' subnet.map_public_ip_on_launch.shouldnt.be.ok client.modify_subnet_attribute( SubnetId=subnet.id, MapPublicIpOnLaunch={"Value": False} ) subnet.reload() subnet.map_public_ip_on_launch.shouldnt.be.ok client.modify_subnet_attribute( SubnetId=subnet.id, MapPublicIpOnLaunch={"Value": True} ) subnet.reload() subnet.map_public_ip_on_launch.should.be.ok @mock_ec2 def test_modify_subnet_attribute_assign_ipv6_address_on_creation(): ec2 = boto3.resource("ec2", region_name="us-west-1") client = boto3.client("ec2", region_name="us-west-1") # Get the default VPC vpc = list(ec2.vpcs.all())[0] subnet = ec2.create_subnet( VpcId=vpc.id, CidrBlock="172.31.112.0/20", AvailabilityZone="us-west-1a" ) # 'map_public_ip_on_launch' is set when calling 'DescribeSubnets' action subnet.reload() # For non default subnet, attribute value should be 'False' subnet.assign_ipv6_address_on_creation.shouldnt.be.ok client.modify_subnet_attribute( SubnetId=subnet.id, AssignIpv6AddressOnCreation={"Value": False} ) subnet.reload() subnet.assign_ipv6_address_on_creation.shouldnt.be.ok client.modify_subnet_attribute( SubnetId=subnet.id, AssignIpv6AddressOnCreation={"Value": True} ) subnet.reload() subnet.assign_ipv6_address_on_creation.should.be.ok @mock_ec2 def test_modify_subnet_attribute_validation(): ec2 = boto3.resource("ec2", region_name="us-west-1") client = boto3.client("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="10.0.0.0/16") subnet = ec2.create_subnet( VpcId=vpc.id, CidrBlock="10.0.0.0/24", AvailabilityZone="us-west-1a" ) with pytest.raises(ParamValidationError): client.modify_subnet_attribute( SubnetId=subnet.id, MapPublicIpOnLaunch={"Value": "invalid"} ) @mock_ec2_deprecated def test_subnet_get_by_id(): ec2 = boto.ec2.connect_to_region("us-west-1") conn = boto.vpc.connect_to_region("us-west-1") vpcA = conn.create_vpc("10.0.0.0/16") subnetA = conn.create_subnet(vpcA.id, "10.0.0.0/24", availability_zone="us-west-1a") vpcB = conn.create_vpc("10.0.0.0/16") subnetB1 = conn.create_subnet( vpcB.id, "10.0.0.0/24", availability_zone="us-west-1a" ) subnetB2 = conn.create_subnet( vpcB.id, "10.0.1.0/24", availability_zone="us-west-1b" ) subnets_by_id = conn.get_all_subnets(subnet_ids=[subnetA.id, subnetB1.id]) subnets_by_id.should.have.length_of(2) subnets_by_id = tuple(map(lambda s: s.id, subnets_by_id)) subnetA.id.should.be.within(subnets_by_id) subnetB1.id.should.be.within(subnets_by_id) with pytest.raises(EC2ResponseError) as cm: conn.get_all_subnets(subnet_ids=["subnet-does_not_exist"]) cm.exception.code.should.equal("InvalidSubnetID.NotFound") cm.exception.status.should.equal(400) cm.exception.request_id.should_not.be.none @mock_ec2_deprecated def test_get_subnets_filtering(): ec2 = boto.ec2.connect_to_region("us-west-1") conn = boto.vpc.connect_to_region("us-west-1") vpcA = conn.create_vpc("10.0.0.0/16") subnetA = conn.create_subnet(vpcA.id, "10.0.0.0/24", availability_zone="us-west-1a") vpcB = conn.create_vpc("10.0.0.0/16") subnetB1 = conn.create_subnet( vpcB.id, "10.0.0.0/24", availability_zone="us-west-1a" ) subnetB2 = conn.create_subnet( vpcB.id, "10.0.1.0/24", availability_zone="us-west-1b" ) all_subnets = conn.get_all_subnets() all_subnets.should.have.length_of(3 + len(ec2.get_all_zones())) # Filter by VPC ID subnets_by_vpc = conn.get_all_subnets(filters={"vpc-id": vpcB.id}) subnets_by_vpc.should.have.length_of(2) set([subnet.id for subnet in subnets_by_vpc]).should.equal( set([subnetB1.id, subnetB2.id]) ) # Filter by CIDR variations subnets_by_cidr1 = conn.get_all_subnets(filters={"cidr": "10.0.0.0/24"}) subnets_by_cidr1.should.have.length_of(2) set([subnet.id for subnet in subnets_by_cidr1]).should.equal( set([subnetA.id, subnetB1.id]) ) subnets_by_cidr2 = conn.get_all_subnets(filters={"cidr-block": "10.0.0.0/24"}) subnets_by_cidr2.should.have.length_of(2) set([subnet.id for subnet in subnets_by_cidr2]).should.equal( set([subnetA.id, subnetB1.id]) ) subnets_by_cidr3 = conn.get_all_subnets(filters={"cidrBlock": "10.0.0.0/24"}) subnets_by_cidr3.should.have.length_of(2) set([subnet.id for subnet in subnets_by_cidr3]).should.equal( set([subnetA.id, subnetB1.id]) ) # Filter by VPC ID and CIDR subnets_by_vpc_and_cidr = conn.get_all_subnets( filters={"vpc-id": vpcB.id, "cidr": "10.0.0.0/24"} ) subnets_by_vpc_and_cidr.should.have.length_of(1) set([subnet.id for subnet in subnets_by_vpc_and_cidr]).should.equal( set([subnetB1.id]) ) # Filter by subnet ID subnets_by_id = conn.get_all_subnets(filters={"subnet-id": subnetA.id}) subnets_by_id.should.have.length_of(1) set([subnet.id for subnet in subnets_by_id]).should.equal(set([subnetA.id])) # Filter by availabilityZone subnets_by_az = conn.get_all_subnets( filters={"availabilityZone": "us-west-1a", "vpc-id": vpcB.id} ) subnets_by_az.should.have.length_of(1) set([subnet.id for subnet in subnets_by_az]).should.equal(set([subnetB1.id])) # Filter by defaultForAz subnets_by_az = conn.get_all_subnets(filters={"defaultForAz": "true"}) subnets_by_az.should.have.length_of(len(conn.get_all_zones())) # Unsupported filter conn.get_all_subnets.when.called_with( filters={"not-implemented-filter": "foobar"} ).should.throw(NotImplementedError) @mock_ec2 def test_create_subnet_response_fields(): ec2 = boto3.resource("ec2", region_name="us-west-1") client = boto3.client("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="10.0.0.0/16") subnet = client.create_subnet( VpcId=vpc.id, CidrBlock="10.0.0.0/24", AvailabilityZone="us-west-1a" )["Subnet"] subnet.should.have.key("AvailabilityZone") subnet.should.have.key("AvailabilityZoneId") subnet.should.have.key("AvailableIpAddressCount") subnet.should.have.key("CidrBlock") subnet.should.have.key("State") subnet.should.have.key("SubnetId") subnet.should.have.key("VpcId") subnet.should.have.key("Tags") subnet.should.have.key("DefaultForAz").which.should.equal(False) subnet.should.have.key("MapPublicIpOnLaunch").which.should.equal(False) subnet.should.have.key("OwnerId") subnet.should.have.key("AssignIpv6AddressOnCreation").which.should.equal(False) subnet_arn = "arn:aws:ec2:{region}:{owner_id}:subnet/{subnet_id}".format( region=subnet["AvailabilityZone"][0:-1], owner_id=subnet["OwnerId"], subnet_id=subnet["SubnetId"], ) subnet.should.have.key("SubnetArn").which.should.equal(subnet_arn) subnet.should.have.key("Ipv6CidrBlockAssociationSet").which.should.equal([]) @mock_ec2 def test_describe_subnet_response_fields(): ec2 = boto3.resource("ec2", region_name="us-west-1") client = boto3.client("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="10.0.0.0/16") subnet_object = ec2.create_subnet( VpcId=vpc.id, CidrBlock="10.0.0.0/24", AvailabilityZone="us-west-1a" ) subnets = client.describe_subnets(SubnetIds=[subnet_object.id])["Subnets"] subnets.should.have.length_of(1) subnet = subnets[0] subnet.should.have.key("AvailabilityZone") subnet.should.have.key("AvailabilityZoneId") subnet.should.have.key("AvailableIpAddressCount") subnet.should.have.key("CidrBlock") subnet.should.have.key("State") subnet.should.have.key("SubnetId") subnet.should.have.key("VpcId") subnet.shouldnt.have.key("Tags") subnet.should.have.key("DefaultForAz").which.should.equal(False) subnet.should.have.key("MapPublicIpOnLaunch").which.should.equal(False) subnet.should.have.key("OwnerId") subnet.should.have.key("AssignIpv6AddressOnCreation").which.should.equal(False) subnet_arn = "arn:aws:ec2:{region}:{owner_id}:subnet/{subnet_id}".format( region=subnet["AvailabilityZone"][0:-1], owner_id=subnet["OwnerId"], subnet_id=subnet["SubnetId"], ) subnet.should.have.key("SubnetArn").which.should.equal(subnet_arn) subnet.should.have.key("Ipv6CidrBlockAssociationSet").which.should.equal([]) @mock_ec2 def test_create_subnet_with_invalid_availability_zone(): ec2 = boto3.resource("ec2", region_name="us-west-1") client = boto3.client("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="10.0.0.0/16") subnet_availability_zone = "asfasfas" with pytest.raises(ClientError) as ex: subnet = client.create_subnet( VpcId=vpc.id, CidrBlock="10.0.0.0/24", AvailabilityZone=subnet_availability_zone, ) assert str(ex.exception).startswith( "An error occurred (InvalidParameterValue) when calling the CreateSubnet " "operation: Value ({}) for parameter availabilityZone is invalid. Subnets can currently only be created in the following availability zones: ".format( subnet_availability_zone ) ) @mock_ec2 def test_create_subnet_with_invalid_cidr_range(): ec2 = boto3.resource("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="10.0.0.0/16") vpc.reload() vpc.is_default.shouldnt.be.ok subnet_cidr_block = "10.1.0.0/20" with pytest.raises(ClientError) as ex: subnet = ec2.create_subnet(VpcId=vpc.id, CidrBlock=subnet_cidr_block) str(ex.exception).should.equal( "An error occurred (InvalidSubnet.Range) when calling the CreateSubnet " "operation: The CIDR '{}' is invalid.".format(subnet_cidr_block) ) @mock_ec2 def test_create_subnet_with_invalid_cidr_range_multiple_vpc_cidr_blocks(): ec2 = boto3.resource("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="10.0.0.0/16") ec2.meta.client.associate_vpc_cidr_block(CidrBlock="10.1.0.0/16", VpcId=vpc.id) vpc.reload() vpc.is_default.shouldnt.be.ok subnet_cidr_block = "10.2.0.0/20" with assert_raises(ClientError) as ex: subnet = ec2.create_subnet(VpcId=vpc.id, CidrBlock=subnet_cidr_block) str(ex.exception).should.equal( "An error occurred (InvalidSubnet.Range) when calling the CreateSubnet " "operation: The CIDR '{}' is invalid.".format(subnet_cidr_block) ) @mock_ec2 def test_create_subnet_with_invalid_cidr_block_parameter(): ec2 = boto3.resource("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="10.0.0.0/16") vpc.reload() vpc.is_default.shouldnt.be.ok subnet_cidr_block = "1000.1.0.0/20" with pytest.raises(ClientError) as ex: subnet = ec2.create_subnet(VpcId=vpc.id, CidrBlock=subnet_cidr_block) str(ex.exception).should.equal( "An error occurred (InvalidParameterValue) when calling the CreateSubnet " "operation: Value ({}) for parameter cidrBlock is invalid. This is not a valid CIDR block.".format( subnet_cidr_block ) ) @mock_ec2 def test_create_subnets_with_multiple_vpc_cidr_blocks(): ec2 = boto3.resource("ec2", region_name="us-west-1") client = boto3.client("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="10.0.0.0/16") ec2.meta.client.associate_vpc_cidr_block(CidrBlock="10.1.0.0/16", VpcId=vpc.id) vpc.reload() vpc.is_default.shouldnt.be.ok subnet_cidr_block_primary = "10.0.0.0/24" subnet_primary = ec2.create_subnet( VpcId=vpc.id, CidrBlock=subnet_cidr_block_primary ) subnet_cidr_block_secondary = "10.1.0.0/24" subnet_secondary = ec2.create_subnet( VpcId=vpc.id, CidrBlock=subnet_cidr_block_secondary ) subnets = client.describe_subnets( SubnetIds=[subnet_primary.id, subnet_secondary.id] )["Subnets"] subnets.should.have.length_of(2) for subnet in subnets: subnet.should.have.key("AvailabilityZone") subnet.should.have.key("AvailabilityZoneId") subnet.should.have.key("AvailableIpAddressCount") subnet.should.have.key("CidrBlock") subnet.should.have.key("State") subnet.should.have.key("SubnetId") subnet.should.have.key("VpcId") subnet.shouldnt.have.key("Tags") subnet.should.have.key("DefaultForAz").which.should.equal(False) subnet.should.have.key("MapPublicIpOnLaunch").which.should.equal(False) subnet.should.have.key("OwnerId") subnet.should.have.key("AssignIpv6AddressOnCreation").which.should.equal(False) @mock_ec2 def test_create_subnets_with_overlapping_cidr_blocks(): ec2 = boto3.resource("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="10.0.0.0/16") vpc.reload() vpc.is_default.shouldnt.be.ok subnet_cidr_block = "10.0.0.0/24" with pytest.raises(ClientError) as ex: subnet1 = ec2.create_subnet(VpcId=vpc.id, CidrBlock=subnet_cidr_block) subnet2 = ec2.create_subnet(VpcId=vpc.id, CidrBlock=subnet_cidr_block) str(ex.exception).should.equal( "An error occurred (InvalidSubnet.Conflict) when calling the CreateSubnet " "operation: The CIDR '{}' conflicts with another subnet".format( subnet_cidr_block ) ) @mock_ec2 def test_create_subnet_with_tags(): ec2 = boto3.resource("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="172.31.0.0/16") subnet = ec2.create_subnet( VpcId=vpc.id, CidrBlock="172.31.48.0/20", AvailabilityZoneId="use1-az6", TagSpecifications=[ {"ResourceType": "subnet", "Tags": [{"Key": "name", "Value": "some-vpc"}]} ], ) assert subnet.tags == [{"Key": "name", "Value": "some-vpc"}] @mock_ec2 def test_available_ip_addresses_in_subnet(): ec2 = boto3.resource("ec2", region_name="us-west-1") client = boto3.client("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="10.0.0.0/16") cidr_range_addresses = [ ("10.0.0.0/16", 65531), ("10.0.0.0/17", 32763), ("10.0.0.0/18", 16379), ("10.0.0.0/19", 8187), ("10.0.0.0/20", 4091), ("10.0.0.0/21", 2043), ("10.0.0.0/22", 1019), ("10.0.0.0/23", 507), ("10.0.0.0/24", 251), ("10.0.0.0/25", 123), ("10.0.0.0/26", 59), ("10.0.0.0/27", 27), ("10.0.0.0/28", 11), ] for (cidr, expected_count) in cidr_range_addresses: validate_subnet_details(client, vpc, cidr, expected_count) @mock_ec2 def test_available_ip_addresses_in_subnet_with_enis(): ec2 = boto3.resource("ec2", region_name="us-west-1") client = boto3.client("ec2", region_name="us-west-1") vpc = ec2.create_vpc(CidrBlock="10.0.0.0/16") # Verify behaviour for various CIDR ranges (...) # Don't try to assign ENIs to /27 and /28, as there are not a lot of IP addresses to go around cidr_range_addresses = [ ("10.0.0.0/16", 65531), ("10.0.0.0/17", 32763), ("10.0.0.0/18", 16379), ("10.0.0.0/19", 8187), ("10.0.0.0/20", 4091), ("10.0.0.0/21", 2043), ("10.0.0.0/22", 1019), ("10.0.0.0/23", 507), ("10.0.0.0/24", 251), ("10.0.0.0/25", 123), ("10.0.0.0/26", 59), ] for (cidr, expected_count) in cidr_range_addresses: validate_subnet_details_after_creating_eni(client, vpc, cidr, expected_count) def validate_subnet_details(client, vpc, cidr, expected_ip_address_count): subnet = client.create_subnet( VpcId=vpc.id, CidrBlock=cidr, AvailabilityZone="us-west-1b" )["Subnet"] subnet["AvailableIpAddressCount"].should.equal(expected_ip_address_count) client.delete_subnet(SubnetId=subnet["SubnetId"]) def validate_subnet_details_after_creating_eni( client, vpc, cidr, expected_ip_address_count ): subnet = client.create_subnet( VpcId=vpc.id, CidrBlock=cidr, AvailabilityZone="us-west-1b" )["Subnet"] # Create a random number of Elastic Network Interfaces nr_of_eni_to_create = random.randint(0, 5) ip_addresses_assigned = 0 enis_created = [] for i in range(0, nr_of_eni_to_create): # Create a random number of IP addresses per ENI nr_of_ip_addresses = random.randint(1, 5) if nr_of_ip_addresses == 1: # Pick the first available IP address (First 4 are reserved by AWS) private_address = "10.0.0." + str(ip_addresses_assigned + 4) eni = client.create_network_interface( SubnetId=subnet["SubnetId"], PrivateIpAddress=private_address )["NetworkInterface"] enis_created.append(eni) ip_addresses_assigned = ip_addresses_assigned + 1 else: # Assign a list of IP addresses private_addresses = [ "10.0.0." + str(4 + ip_addresses_assigned + i) for i in range(0, nr_of_ip_addresses) ] eni = client.create_network_interface( SubnetId=subnet["SubnetId"], PrivateIpAddresses=[ {"PrivateIpAddress": address} for address in private_addresses ], )["NetworkInterface"] enis_created.append(eni) ip_addresses_assigned = ip_addresses_assigned + nr_of_ip_addresses + 1 # # Verify that the nr of available IP addresses takes these ENIs into account updated_subnet = client.describe_subnets(SubnetIds=[subnet["SubnetId"]])["Subnets"][ 0 ] private_addresses = [ eni["PrivateIpAddress"] for eni in enis_created if eni["PrivateIpAddress"] ] for eni in enis_created: private_addresses.extend( [address["PrivateIpAddress"] for address in eni["PrivateIpAddresses"]] ) error_msg = ( "Nr of IP addresses for Subnet with CIDR {0} is incorrect. Expected: {1}, Actual: {2}. " "Addresses: {3}" ) with sure.ensure( error_msg, cidr, str(expected_ip_address_count), updated_subnet["AvailableIpAddressCount"], str(private_addresses), ): updated_subnet["AvailableIpAddressCount"].should.equal( expected_ip_address_count - ip_addresses_assigned ) # Clean up, as we have to create a few more subnets that shouldn't interfere with each other for eni in enis_created: client.delete_network_interface(NetworkInterfaceId=eni["NetworkInterfaceId"]) client.delete_subnet(SubnetId=subnet["SubnetId"]) @mock_ec2 def test_run_instances_should_attach_to_default_subnet(): # https://github.com/spulec/moto/issues/2877 ec2 = boto3.resource("ec2", region_name="us-west-1") client = boto3.client("ec2", region_name="us-west-1") ec2.create_security_group(GroupName="sg01", Description="Test security group sg01") # run_instances instances = client.run_instances(MinCount=1, MaxCount=1, SecurityGroups=["sg01"],) # Assert subnet is created appropriately subnets = client.describe_subnets()["Subnets"] default_subnet_id = subnets[0]["SubnetId"] if len(subnets) > 1: default_subnet_id1 = subnets[1]["SubnetId"] assert ( instances["Instances"][0]["NetworkInterfaces"][0]["SubnetId"] == default_subnet_id or instances["Instances"][0]["NetworkInterfaces"][0]["SubnetId"] == default_subnet_id1 ) assert ( subnets[0]["AvailableIpAddressCount"] == 4090 or subnets[1]["AvailableIpAddressCount"] == 4090 )