from __future__ import unicode_literals import copy import itertools import ipaddress import json import os import pathlib import re import warnings from boto3 import Session from collections import defaultdict import weakref from datetime import datetime from moto.packages.boto.ec2.instance import Instance as BotoInstance, Reservation from moto.packages.boto.ec2.blockdevicemapping import ( BlockDeviceMapping, BlockDeviceType, ) from moto.packages.boto.ec2.spotinstancerequest import ( SpotInstanceRequest as BotoSpotRequest, ) from moto.packages.boto.ec2.launchspecification import LaunchSpecification from collections import OrderedDict from moto.core import BaseBackend from moto.core.models import Model, BaseModel, CloudFormationModel from moto.core.utils import ( iso_8601_datetime_with_milliseconds, camelcase_to_underscores, ) from moto.core import ACCOUNT_ID from moto.kms import kms_backends from moto.utilities.utils import load_resource, merge_multiple_dicts, filter_resources from os import listdir from .exceptions import ( CidrLimitExceeded, UnsupportedTenancy, DependencyViolationError, EC2ClientError, FilterNotImplementedError, FlowLogAlreadyExists, GatewayNotAttachedError, InvalidAddressError, InvalidAllocationIdError, InvalidAMIIdError, InvalidAMIAttributeItemValueError, InvalidAssociationIdError, InvalidAvailabilityZoneError, InvalidCIDRBlockParameterError, InvalidCIDRSubnetError, InvalidCustomerGatewayIdError, InvalidDestinationCIDRBlockParameterError, InvalidDHCPOptionsIdError, InvalidDomainError, InvalidID, InvalidInstanceIdError, InvalidInstanceTypeError, InvalidInternetGatewayIdError, InvalidKeyPairDuplicateError, InvalidKeyPairFormatError, InvalidKeyPairNameError, InvalidAggregationIntervalParameterError, InvalidDependantParameterError, InvalidDependantParameterTypeError, InvalidFlowLogIdError, InvalidLaunchTemplateNameError, InvalidNetworkAclIdError, InvalidNetworkAttachmentIdError, InvalidNetworkInterfaceIdError, InvalidParameterValueError, InvalidParameterValueErrorTagNull, InvalidParameterValueErrorUnknownAttribute, InvalidPermissionNotFoundError, InvalidPermissionDuplicateError, InvalidRouteTableIdError, InvalidRouteError, InvalidSecurityGroupDuplicateError, InvalidSecurityGroupNotFoundError, InvalidSnapshotIdError, InvalidSubnetConflictError, InvalidSubnetIdError, InvalidSubnetRangeError, InvalidVolumeIdError, VolumeInUseError, InvalidVolumeAttachmentError, InvalidVolumeDetachmentError, InvalidVpcCidrBlockAssociationIdError, InvalidVPCPeeringConnectionIdError, InvalidVPCPeeringConnectionStateTransitionError, InvalidVPCIdError, InvalidVPCRangeError, InvalidVpnGatewayIdError, InvalidVpnConnectionIdError, MalformedAMIIdError, MalformedDHCPOptionsIdError, MissingParameterError, MotoNotImplementedError, NetworkAclEntryAlreadyExistsError, OperationNotPermitted, OperationNotPermitted2, OperationNotPermitted3, OperationNotPermitted4, ResourceAlreadyAssociatedError, RulesPerSecurityGroupLimitExceededError, TagLimitExceeded, InvalidParameterDependency, IncorrectStateIamProfileAssociationError, InvalidAssociationIDIamProfileAssociationError, InvalidVpcEndPointIdError, InvalidTaggableResourceType, InvalidGatewayIDError, ) from .utils import ( EC2_RESOURCE_TO_PREFIX, EC2_PREFIX_TO_RESOURCE, random_ami_id, random_dhcp_option_id, random_eip_allocation_id, random_eip_association_id, random_eni_attach_id, random_eni_id, random_instance_id, random_internet_gateway_id, random_egress_only_internet_gateway_id, random_ip, random_ipv6_cidr, random_transit_gateway_attachment_id, random_transit_gateway_route_table_id, random_vpc_ep_id, randor_ipv4_cidr, random_launch_template_id, random_nat_gateway_id, random_transit_gateway_id, random_key_pair, random_private_ip, random_public_ip, random_reservation_id, random_route_table_id, generate_route_id, random_managed_prefix_list_id, create_dns_entries, split_route_id, random_security_group_id, random_security_group_rule_id, random_snapshot_id, random_spot_fleet_request_id, random_spot_request_id, random_subnet_id, random_subnet_association_id, random_flow_log_id, random_volume_id, random_vpc_id, random_vpc_cidr_association_id, random_vpc_peering_connection_id, random_iam_instance_profile_association_id, generic_filter, is_valid_resource_id, get_prefix, simple_aws_filter_to_re, is_valid_cidr, is_valid_ipv6_cidr, filter_internet_gateways, filter_reservations, filter_iam_instance_profile_associations, filter_iam_instance_profiles, random_network_acl_id, random_network_acl_subnet_association_id, random_vpn_gateway_id, random_vpn_connection_id, random_customer_gateway_id, is_tag_filter, tag_filter_matches, rsa_public_key_parse, rsa_public_key_fingerprint, describe_tag_filter, ) INSTANCE_TYPES = load_resource(__name__, "resources/instance_types.json") root = pathlib.Path(__file__).parent offerings_path = "resources/instance_type_offerings" INSTANCE_TYPE_OFFERINGS = {} for location_type in listdir(root / offerings_path): INSTANCE_TYPE_OFFERINGS[location_type] = {} for region in listdir(root / offerings_path / location_type): full_path = offerings_path + "/" + location_type + "/" + region INSTANCE_TYPE_OFFERINGS[location_type][ region.replace(".json", "") ] = load_resource(__name__, full_path) if "MOTO_AMIS_PATH" in os.environ: with open(os.environ.get("MOTO_AMIS_PATH"), "r", encoding="utf-8") as f: AMIS = json.load(f) else: AMIS = load_resource(__name__, "resources/amis.json") OWNER_ID = ACCOUNT_ID def utc_date_and_time(): return datetime.utcnow().strftime("%Y-%m-%dT%H:%M:%S.000Z") def validate_resource_ids(resource_ids): if not resource_ids: raise MissingParameterError(parameter="resourceIdSet") for resource_id in resource_ids: if not is_valid_resource_id(resource_id): raise InvalidID(resource_id=resource_id) return True class InstanceState(object): def __init__(self, name="pending", code=0): self.name = name self.code = code class StateReason(object): def __init__(self, message="", code=""): self.message = message self.code = code class TaggedEC2Resource(BaseModel): def get_tags(self, *args, **kwargs): tags = [] if self.id: tags = self.ec2_backend.describe_tags(filters={"resource-id": [self.id]}) return tags def add_tag(self, key, value): self.ec2_backend.create_tags([self.id], {key: value}) def add_tags(self, tag_map): for key, value in tag_map.items(): self.ec2_backend.create_tags([self.id], {key: value}) def get_filter_value(self, filter_name, method_name=None): tags = self.get_tags() if filter_name.startswith("tag:"): tagname = filter_name.replace("tag:", "", 1) for tag in tags: if tag["key"] == tagname: return tag["value"] return None elif filter_name == "tag-key": return [tag["key"] for tag in tags] elif filter_name == "tag-value": return [tag["value"] for tag in tags] value = getattr(self, filter_name.lower().replace("-", "_"), None) if value is not None: return [value] raise FilterNotImplementedError(filter_name, method_name) class NetworkInterface(TaggedEC2Resource, CloudFormationModel): def __init__( self, ec2_backend, subnet, private_ip_address, private_ip_addresses=None, device_index=0, public_ip_auto_assign=True, group_ids=None, description=None, ): self.ec2_backend = ec2_backend self.id = random_eni_id() self.device_index = device_index self.private_ip_address = private_ip_address or random_private_ip() self.private_ip_addresses = private_ip_addresses self.subnet = subnet self.instance = None self.attachment_id = None self.description = description self.public_ip = None self.public_ip_auto_assign = public_ip_auto_assign self.start() self.attachments = [] # Local set to the ENI. When attached to an instance, @property group_set # returns groups for both self and the attached instance. self._group_set = [] group = None if group_ids: for group_id in group_ids: group = self.ec2_backend.get_security_group_from_id(group_id) if not group: # Create with specific group ID. group = SecurityGroup( self.ec2_backend, group_id, group_id, group_id, vpc_id=subnet.vpc_id, ) self.ec2_backend.groups[subnet.vpc_id][group_id] = group if group: self._group_set.append(group) @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-networkinterface.html return "AWS::EC2::NetworkInterface" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] security_group_ids = properties.get("SecurityGroups", []) ec2_backend = ec2_backends[region_name] subnet_id = properties.get("SubnetId") if subnet_id: subnet = ec2_backend.get_subnet(subnet_id) else: subnet = None private_ip_address = properties.get("PrivateIpAddress", None) description = properties.get("Description", None) network_interface = ec2_backend.create_network_interface( subnet, private_ip_address, group_ids=security_group_ids, description=description, ) return network_interface def stop(self): if self.public_ip_auto_assign: self.public_ip = None def start(self): self.check_auto_public_ip() def check_auto_public_ip(self): if self.public_ip_auto_assign: self.public_ip = random_public_ip() @property def group_set(self): if self.instance and self.instance.security_groups: return set(self._group_set) | set(self.instance.security_groups) else: return self._group_set def get_cfn_attribute(self, attribute_name): from moto.cloudformation.exceptions import UnformattedGetAttTemplateException if attribute_name == "PrimaryPrivateIpAddress": return self.private_ip_address elif attribute_name == "SecondaryPrivateIpAddresses": raise NotImplementedError( '"Fn::GetAtt" : [ "{0}" , "SecondaryPrivateIpAddresses" ]"' ) raise UnformattedGetAttTemplateException() @property def physical_resource_id(self): return self.id def get_filter_value(self, filter_name): if filter_name == "network-interface-id": return self.id elif filter_name in ("addresses.private-ip-address", "private-ip-address"): return self.private_ip_address elif filter_name == "subnet-id": return self.subnet.id elif filter_name == "vpc-id": return self.subnet.vpc_id elif filter_name == "group-id": return [group.id for group in self._group_set] elif filter_name == "availability-zone": return self.subnet.availability_zone elif filter_name == "description": return self.description else: return super(NetworkInterface, self).get_filter_value( filter_name, "DescribeNetworkInterfaces" ) class NetworkInterfaceBackend(object): def __init__(self): self.enis = {} super(NetworkInterfaceBackend, self).__init__() def create_network_interface( self, subnet, private_ip_address, private_ip_addresses=None, group_ids=None, description=None, tags=None, **kwargs ): eni = NetworkInterface( self, subnet, private_ip_address, private_ip_addresses, group_ids=group_ids, description=description, **kwargs ) if tags: eni.add_tags(tags) self.enis[eni.id] = eni return eni def get_network_interface(self, eni_id): for eni in self.enis.values(): if eni_id == eni.id: return eni raise InvalidNetworkInterfaceIdError(eni_id) def delete_network_interface(self, eni_id): deleted = self.enis.pop(eni_id, None) if not deleted: raise InvalidNetworkInterfaceIdError(eni_id) return deleted def describe_network_interfaces(self, filters=None): # Note: This is only used in EC2Backend#do_resources_exist # Client-calls use #get_all_network_interfaces() # We should probably merge these at some point.. enis = self.enis.values() if filters: for (_filter, _filter_value) in filters.items(): if _filter == "network-interface-id": _filter = "id" enis = [ eni for eni in enis if getattr(eni, _filter) in _filter_value ] else: self.raise_not_implemented_error( "The filter '{0}' for DescribeNetworkInterfaces".format(_filter) ) return enis def attach_network_interface(self, eni_id, instance_id, device_index): eni = self.get_network_interface(eni_id) instance = self.get_instance(instance_id) return instance.attach_eni(eni, device_index) def detach_network_interface(self, attachment_id): found_eni = None for eni in self.enis.values(): if eni.attachment_id == attachment_id: found_eni = eni break else: raise InvalidNetworkAttachmentIdError(attachment_id) found_eni.instance.detach_eni(found_eni) def modify_network_interface_attribute(self, eni_id, group_ids): eni = self.get_network_interface(eni_id) groups = [self.get_security_group_from_id(group_id) for group_id in group_ids] eni._group_set = groups def get_all_network_interfaces(self, eni_ids=None, filters=None): enis = self.enis.values() if eni_ids: enis = [eni for eni in enis if eni.id in eni_ids] if len(enis) != len(eni_ids): invalid_id = list( set(eni_ids).difference(set([eni.id for eni in enis])) )[0] raise InvalidNetworkInterfaceIdError(invalid_id) return generic_filter(filters, enis) class Instance(TaggedEC2Resource, BotoInstance, CloudFormationModel): VALID_ATTRIBUTES = { "instanceType", "kernel", "ramdisk", "userData", "disableApiTermination", "instanceInitiatedShutdownBehavior", "rootDeviceName", "blockDeviceMapping", "productCodes", "sourceDestCheck", "groupSet", "ebsOptimized", "sriovNetSupport", } def __init__(self, ec2_backend, image_id, user_data, security_groups, **kwargs): super(Instance, self).__init__() self.ec2_backend = ec2_backend self.id = random_instance_id() self.image_id = image_id self._state = InstanceState("running", 16) self._reason = "" self._state_reason = StateReason() self.user_data = user_data self.security_groups = security_groups self.instance_type = kwargs.get("instance_type", "m1.small") self.region_name = kwargs.get("region_name", "us-east-1") placement = kwargs.get("placement", None) self.vpc_id = None self.subnet_id = kwargs.get("subnet_id") in_ec2_classic = not bool(self.subnet_id) self.key_name = kwargs.get("key_name") self.ebs_optimized = kwargs.get("ebs_optimized", False) self.source_dest_check = "true" self.launch_time = utc_date_and_time() self.ami_launch_index = kwargs.get("ami_launch_index", 0) self.disable_api_termination = kwargs.get("disable_api_termination", False) self.instance_initiated_shutdown_behavior = kwargs.get( "instance_initiated_shutdown_behavior", "stop" ) self.sriov_net_support = "simple" self._spot_fleet_id = kwargs.get("spot_fleet_id", None) self.associate_public_ip = kwargs.get("associate_public_ip", False) if in_ec2_classic: # If we are in EC2-Classic, autoassign a public IP self.associate_public_ip = True amis = self.ec2_backend.describe_images(filters={"image-id": image_id}) ami = amis[0] if amis else None if ami is None: warnings.warn( "Could not find AMI with image-id:{0}, " "in the near future this will " "cause an error.\n" "Use ec2_backend.describe_images() to " "find suitable image for your test".format(image_id), PendingDeprecationWarning, ) self.platform = ami.platform if ami else None self.virtualization_type = ami.virtualization_type if ami else "paravirtual" self.architecture = ami.architecture if ami else "x86_64" # handle weird bug around user_data -- something grabs the repr(), so # it must be clean if isinstance(self.user_data, list) and len(self.user_data) > 0: if isinstance(self.user_data[0], bytes): # string will have a "b" prefix -- need to get rid of it self.user_data[0] = self.user_data[0].decode("utf-8") if self.subnet_id: subnet = ec2_backend.get_subnet(self.subnet_id) self.vpc_id = subnet.vpc_id self._placement.zone = subnet.availability_zone if self.associate_public_ip is None: # Mapping public ip hasnt been explicitly enabled or disabled self.associate_public_ip = subnet.map_public_ip_on_launch == "true" elif placement: self._placement.zone = placement else: self._placement.zone = ec2_backend.region_name + "a" self.block_device_mapping = BlockDeviceMapping() self._private_ips = set() self.prep_nics( kwargs.get("nics", {}), private_ip=kwargs.get("private_ip"), associate_public_ip=self.associate_public_ip, ) def __del__(self): try: subnet = self.ec2_backend.get_subnet(self.subnet_id) for ip in self._private_ips: subnet.del_subnet_ip(ip) except Exception: # Its not "super" critical we clean this up, as reset will do this # worst case we'll get IP address exaustion... rarely pass def add_block_device( self, size, device_path, snapshot_id=None, encrypted=False, delete_on_termination=False, kms_key_id=None, ): volume = self.ec2_backend.create_volume( size, self.region_name, snapshot_id, encrypted, kms_key_id ) self.ec2_backend.attach_volume( volume.id, self.id, device_path, delete_on_termination ) def setup_defaults(self): # Default have an instance with root volume should you not wish to # override with attach volume cmd. volume = self.ec2_backend.create_volume(8, "us-east-1a") self.ec2_backend.attach_volume(volume.id, self.id, "/dev/sda1", True) def teardown_defaults(self): for device_path in list(self.block_device_mapping.keys()): volume = self.block_device_mapping[device_path] volume_id = volume.volume_id self.ec2_backend.detach_volume(volume_id, self.id, device_path) if volume.delete_on_termination: self.ec2_backend.delete_volume(volume_id) @property def get_block_device_mapping(self): return self.block_device_mapping.items() @property def private_ip(self): return self.nics[0].private_ip_address @property def private_dns(self): formatted_ip = self.private_ip.replace(".", "-") if self.region_name == "us-east-1": return "ip-{0}.ec2.internal".format(formatted_ip) else: return "ip-{0}.{1}.compute.internal".format(formatted_ip, self.region_name) @property def public_ip(self): return self.nics[0].public_ip @property def public_dns(self): if self.public_ip: formatted_ip = self.public_ip.replace(".", "-") if self.region_name == "us-east-1": return "ec2-{0}.compute-1.amazonaws.com".format(formatted_ip) else: return "ec2-{0}.{1}.compute.amazonaws.com".format( formatted_ip, self.region_name ) @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-instance.html return "AWS::EC2::Instance" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] ec2_backend = ec2_backends[region_name] security_group_ids = properties.get("SecurityGroups", []) group_names = [ ec2_backend.get_security_group_from_id(group_id).name for group_id in security_group_ids ] reservation = ec2_backend.add_instances( image_id=properties["ImageId"], user_data=properties.get("UserData"), count=1, security_group_names=group_names, instance_type=properties.get("InstanceType", "m1.small"), subnet_id=properties.get("SubnetId"), key_name=properties.get("KeyName"), private_ip=properties.get("PrivateIpAddress"), block_device_mappings=properties.get("BlockDeviceMappings", {}), ) instance = reservation.instances[0] for tag in properties.get("Tags", []): instance.add_tag(tag["Key"], tag["Value"]) # Associating iam instance profile. # TODO: Don't forget to implement replace_iam_instance_profile_association once update_from_cloudformation_json # for ec2 instance will be implemented. if properties.get("IamInstanceProfile"): ec2_backend.associate_iam_instance_profile( instance_id=instance.id, iam_instance_profile_name=properties.get("IamInstanceProfile"), ) return instance @classmethod def delete_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): ec2_backend = ec2_backends[region_name] all_instances = ec2_backend.all_instances() # the resource_name for instances is the stack name, logical id, and random suffix separated # by hyphens. So to lookup the instances using the 'aws:cloudformation:logical-id' tag, we need to # extract the logical-id from the resource_name logical_id = resource_name.split("-")[1] for instance in all_instances: instance_tags = instance.get_tags() for tag in instance_tags: if ( tag["key"] == "aws:cloudformation:logical-id" and tag["value"] == logical_id ): instance.delete(region_name) @property def physical_resource_id(self): return self.id def start(self, *args, **kwargs): for nic in self.nics.values(): nic.start() self._state.name = "running" self._state.code = 16 self._reason = "" self._state_reason = StateReason() def stop(self, *args, **kwargs): for nic in self.nics.values(): nic.stop() self._state.name = "stopped" self._state.code = 80 self._reason = "User initiated ({0})".format( datetime.utcnow().strftime("%Y-%m-%d %H:%M:%S UTC") ) self._state_reason = StateReason( "Client.UserInitiatedShutdown: User initiated shutdown", "Client.UserInitiatedShutdown", ) def delete(self, region): self.terminate() def terminate(self, *args, **kwargs): for nic in self.nics.values(): nic.stop() self.teardown_defaults() if self._spot_fleet_id: spot_fleet = self.ec2_backend.get_spot_fleet_request(self._spot_fleet_id) for spec in spot_fleet.launch_specs: if ( spec.instance_type == self.instance_type and spec.subnet_id == self.subnet_id ): break spot_fleet.fulfilled_capacity -= spec.weighted_capacity spot_fleet.spot_requests = [ req for req in spot_fleet.spot_requests if req.instance != self ] self._state.name = "terminated" self._state.code = 48 self._reason = "User initiated ({0})".format( datetime.utcnow().strftime("%Y-%m-%d %H:%M:%S UTC") ) self._state_reason = StateReason( "Client.UserInitiatedShutdown: User initiated shutdown", "Client.UserInitiatedShutdown", ) # Disassociate iam instance profile if associated, otherwise iam_instance_profile_associations will # be pointing to None. if self.ec2_backend.iam_instance_profile_associations.get(self.id): self.ec2_backend.disassociate_iam_instance_profile( association_id=self.ec2_backend.iam_instance_profile_associations[ self.id ].id ) def reboot(self, *args, **kwargs): self._state.name = "running" self._state.code = 16 self._reason = "" self._state_reason = StateReason() @property def dynamic_group_list(self): if self.nics: groups = [] for nic in self.nics.values(): for group in nic.group_set: groups.append(group) return groups else: return self.security_groups def prep_nics(self, nic_spec, private_ip=None, associate_public_ip=None): self.nics = {} if self.subnet_id: subnet = self.ec2_backend.get_subnet(self.subnet_id) if not private_ip: private_ip = subnet.get_available_subnet_ip(instance=self) else: subnet.request_ip(private_ip, instance=self) self._private_ips.add(private_ip) elif private_ip is None: # Preserve old behaviour if in EC2-Classic mode private_ip = random_private_ip() # Primary NIC defaults primary_nic = { "SubnetId": self.subnet_id, "PrivateIpAddress": private_ip, "AssociatePublicIpAddress": associate_public_ip, } primary_nic = dict((k, v) for k, v in primary_nic.items() if v) # If empty NIC spec but primary NIC values provided, create NIC from # them. if primary_nic and not nic_spec: nic_spec[0] = primary_nic nic_spec[0]["DeviceIndex"] = 0 # Flesh out data structures and associations for nic in nic_spec.values(): device_index = int(nic.get("DeviceIndex")) nic_id = nic.get("NetworkInterfaceId") if nic_id: # If existing NIC found, use it. use_nic = self.ec2_backend.get_network_interface(nic_id) use_nic.device_index = device_index use_nic.public_ip_auto_assign = False else: # If primary NIC values provided, use them for the primary NIC. if device_index == 0 and primary_nic: nic.update(primary_nic) if "SubnetId" in nic: subnet = self.ec2_backend.get_subnet(nic["SubnetId"]) else: # Get default Subnet subnet = [ subnet for subnet in self.ec2_backend.get_all_subnets( filters={"availabilityZone": self._placement.zone} ) if subnet.default_for_az ][0] group_id = nic.get("SecurityGroupId") group_ids = [group_id] if group_id else [] use_nic = self.ec2_backend.create_network_interface( subnet, nic.get("PrivateIpAddress"), device_index=device_index, public_ip_auto_assign=nic.get("AssociatePublicIpAddress", False), group_ids=group_ids, ) self.attach_eni(use_nic, device_index) def attach_eni(self, eni, device_index): device_index = int(device_index) self.nics[device_index] = eni # This is used upon associate/disassociate public IP. eni.instance = self eni.attachment_id = random_eni_attach_id() eni.device_index = device_index return eni.attachment_id def detach_eni(self, eni): self.nics.pop(eni.device_index, None) eni.instance = None eni.attachment_id = None eni.device_index = None def get_cfn_attribute(self, attribute_name): from moto.cloudformation.exceptions import UnformattedGetAttTemplateException if attribute_name == "AvailabilityZone": return self.placement elif attribute_name == "PrivateDnsName": return self.private_dns elif attribute_name == "PublicDnsName": return self.public_dns elif attribute_name == "PrivateIp": return self.private_ip elif attribute_name == "PublicIp": return self.public_ip raise UnformattedGetAttTemplateException() def applies(self, filters): if filters: applicable = False for f in filters: acceptable_values = f["values"] if f["name"] == "instance-state-name": if self._state.name in acceptable_values: applicable = True if f["name"] == "instance-state-code": if str(self._state.code) in acceptable_values: applicable = True return applicable # If there are no filters, all instances are valid return True class InstanceBackend(object): def __init__(self): self.reservations = OrderedDict() super(InstanceBackend, self).__init__() def get_instance(self, instance_id): for instance in self.all_instances(): if instance.id == instance_id: return instance raise InvalidInstanceIdError(instance_id) def add_instances(self, image_id, count, user_data, security_group_names, **kwargs): new_reservation = Reservation() new_reservation.id = random_reservation_id() security_groups = [ self.get_security_group_from_name(name) for name in security_group_names ] security_groups.extend( self.get_security_group_from_id(sg_id) for sg_id in kwargs.pop("security_group_ids", []) ) self.reservations[new_reservation.id] = new_reservation tags = kwargs.pop("tags", {}) instance_tags = tags.get("instance", {}) volume_tags = tags.get("volume", {}) for index in range(count): kwargs["ami_launch_index"] = index new_instance = Instance( self, image_id, user_data, security_groups, **kwargs ) new_reservation.instances.append(new_instance) new_instance.add_tags(instance_tags) if "block_device_mappings" in kwargs: for block_device in kwargs["block_device_mappings"]: device_name = block_device["DeviceName"] volume_size = block_device["Ebs"].get("VolumeSize") snapshot_id = block_device["Ebs"].get("SnapshotId") encrypted = block_device["Ebs"].get("Encrypted", False) delete_on_termination = block_device["Ebs"].get( "DeleteOnTermination", False ) kms_key_id = block_device["Ebs"].get("KmsKeyId") new_instance.add_block_device( volume_size, device_name, snapshot_id, encrypted, delete_on_termination, kms_key_id, ) else: new_instance.setup_defaults() # Tag all created volumes. for _, device in new_instance.get_block_device_mapping: volumes = self.describe_volumes(volume_ids=[device.volume_id]) for volume in volumes: volume.add_tags(volume_tags) return new_reservation def run_instances(self): # Logic resides in add_instances # Fake method here to make implementation coverage script aware that this method is implemented pass def start_instances(self, instance_ids): started_instances = [] for instance in self.get_multi_instances_by_id(instance_ids): instance.start() started_instances.append(instance) return started_instances def stop_instances(self, instance_ids): stopped_instances = [] for instance in self.get_multi_instances_by_id(instance_ids): instance.stop() stopped_instances.append(instance) return stopped_instances def terminate_instances(self, instance_ids): terminated_instances = [] if not instance_ids: raise EC2ClientError( "InvalidParameterCombination", "No instances specified" ) for instance in self.get_multi_instances_by_id(instance_ids): if instance.disable_api_termination == "true": raise OperationNotPermitted4(instance.id) instance.terminate() terminated_instances.append(instance) return terminated_instances def reboot_instances(self, instance_ids): rebooted_instances = [] for instance in self.get_multi_instances_by_id(instance_ids): instance.reboot() rebooted_instances.append(instance) return rebooted_instances def modify_instance_attribute(self, instance_id, key, value): instance = self.get_instance(instance_id) setattr(instance, key, value) return instance def modify_instance_security_groups(self, instance_id, new_group_id_list): instance = self.get_instance(instance_id) new_group_list = [] for new_group_id in new_group_id_list: new_group_list.append(self.get_security_group_from_id(new_group_id)) setattr(instance, "security_groups", new_group_list) return instance def describe_instance_attribute(self, instance_id, attribute): if attribute not in Instance.VALID_ATTRIBUTES: raise InvalidParameterValueErrorUnknownAttribute(attribute) if attribute == "groupSet": key = "security_groups" else: key = camelcase_to_underscores(attribute) instance = self.get_instance(instance_id) value = getattr(instance, key) return instance, value def describe_instance_credit_specifications(self, instance_ids): queried_instances = [] for instance in self.get_multi_instances_by_id(instance_ids): queried_instances.append(instance) return queried_instances def all_instances(self, filters=None): instances = [] for reservation in self.all_reservations(): for instance in reservation.instances: if instance.applies(filters): instances.append(instance) return instances def all_running_instances(self, filters=None): instances = [] for reservation in self.all_reservations(): for instance in reservation.instances: if instance.state_code == 16 and instance.applies(filters): instances.append(instance) return instances def get_multi_instances_by_id(self, instance_ids, filters=None): """ :param instance_ids: A string list with instance ids :return: A list with instance objects """ result = [] for reservation in self.all_reservations(): for instance in reservation.instances: if instance.id in instance_ids: if instance.applies(filters): result.append(instance) # TODO: Trim error message down to specific invalid id. if instance_ids and len(instance_ids) > len(result): raise InvalidInstanceIdError(instance_ids) return result def get_instance_by_id(self, instance_id): for reservation in self.all_reservations(): for instance in reservation.instances: if instance.id == instance_id: return instance def get_reservations_by_instance_ids(self, instance_ids, filters=None): """Go through all of the reservations and filter to only return those associated with the given instance_ids. """ reservations = [] for reservation in self.all_reservations(): reservation_instance_ids = [ instance.id for instance in reservation.instances ] matching_reservation = any( instance_id in reservation_instance_ids for instance_id in instance_ids ) if matching_reservation: reservation.instances = [ instance for instance in reservation.instances if instance.id in instance_ids ] reservations.append(reservation) found_instance_ids = [ instance.id for reservation in reservations for instance in reservation.instances ] if len(found_instance_ids) != len(instance_ids): invalid_id = list(set(instance_ids).difference(set(found_instance_ids)))[0] raise InvalidInstanceIdError(invalid_id) if filters is not None: reservations = filter_reservations(reservations, filters) return reservations def describe_instances(self, filters=None): return self.all_reservations(filters) def describe_instance_status(self, instance_ids, include_all_instances, filters): if instance_ids: return self.get_multi_instances_by_id(instance_ids, filters) elif include_all_instances: return self.all_instances(filters) else: return self.all_running_instances(filters) def all_reservations(self, filters=None): reservations = [ copy.copy(reservation) for reservation in self.reservations.values() ] if filters is not None: reservations = filter_reservations(reservations, filters) return reservations class InstanceTypeBackend(object): def __init__(self): super(InstanceTypeBackend, self).__init__() def describe_instance_types(self, instance_types=None): matches = INSTANCE_TYPES.values() if instance_types: matches = [t for t in matches if t.get("InstanceType") in instance_types] if len(instance_types) > len(matches): unknown_ids = set(instance_types) - set( t.get("InstanceType") for t in matches ) raise InvalidInstanceTypeError(unknown_ids) return matches class InstanceTypeOfferingBackend(object): def __init__(self): super(InstanceTypeOfferingBackend, self).__init__() def describe_instance_type_offerings(self, location_type=None, filters=None): location_type = location_type or "region" matches = INSTANCE_TYPE_OFFERINGS[location_type] matches = matches[self.region_name] def matches_filters(offering, filters): def matches_filter(key, values): if key == "location": if location_type in ("availability-zone", "availability-zone-id"): return offering.get("Location") in values elif location_type == "region": return any( v for v in values if offering.get("Location").startswith(v) ) else: return False elif key == "instance-type": return offering.get("InstanceType") in values else: return False return all([matches_filter(key, values) for key, values in filters.items()]) matches = [o for o in matches if matches_filters(o, filters)] return matches class KeyPair(object): def __init__(self, name, fingerprint, material): self.name = name self.fingerprint = fingerprint self.material = material def get_filter_value(self, filter_name): if filter_name == "key-name": return self.name elif filter_name == "fingerprint": return self.fingerprint else: raise FilterNotImplementedError(filter_name, "DescribeKeyPairs") class KeyPairBackend(object): def __init__(self): self.keypairs = {} super(KeyPairBackend, self).__init__() def create_key_pair(self, name): if name in self.keypairs: raise InvalidKeyPairDuplicateError(name) keypair = KeyPair(name, **random_key_pair()) self.keypairs[name] = keypair return keypair def delete_key_pair(self, name): if name in self.keypairs: self.keypairs.pop(name) return True def describe_key_pairs(self, key_names=None, filters=None): results = [] if key_names: results = [ keypair for keypair in self.keypairs.values() if keypair.name in key_names ] if len(key_names) > len(results): unknown_keys = set(key_names) - set(results) raise InvalidKeyPairNameError(unknown_keys) else: results = self.keypairs.values() if filters: return generic_filter(filters, results) else: return results def import_key_pair(self, key_name, public_key_material): if key_name in self.keypairs: raise InvalidKeyPairDuplicateError(key_name) try: rsa_public_key = rsa_public_key_parse(public_key_material) except ValueError: raise InvalidKeyPairFormatError() fingerprint = rsa_public_key_fingerprint(rsa_public_key) keypair = KeyPair( key_name, material=public_key_material, fingerprint=fingerprint ) self.keypairs[key_name] = keypair return keypair class TagBackend(object): VALID_TAG_FILTERS = ["key", "resource-id", "resource-type", "value"] VALID_TAG_RESOURCE_FILTER_TYPES = [ "customer-gateway", "dhcp-options", "image", "instance", "internet-gateway", "network-acl", "network-interface", "reserved-instances", "route-table", "security-group", "snapshot", "spot-instances-request", "subnet", "volume", "vpc", "vpc-flow-log", "vpc-peering-connection" "vpn-connection", "vpn-gateway", ] def __init__(self): self.tags = defaultdict(dict) super(TagBackend, self).__init__() def create_tags(self, resource_ids, tags): if None in set([tags[tag] for tag in tags]): raise InvalidParameterValueErrorTagNull() for resource_id in resource_ids: if resource_id in self.tags: if ( len(self.tags[resource_id]) + len([tag for tag in tags if not tag.startswith("aws:")]) > 50 ): raise TagLimitExceeded() elif len([tag for tag in tags if not tag.startswith("aws:")]) > 50: raise TagLimitExceeded() for resource_id in resource_ids: for tag in tags: self.tags[resource_id][tag] = tags[tag] return True def delete_tags(self, resource_ids, tags): for resource_id in resource_ids: for tag in tags: if tag in self.tags[resource_id]: if tags[tag] is None: self.tags[resource_id].pop(tag) elif tags[tag] == self.tags[resource_id][tag]: self.tags[resource_id].pop(tag) return True def describe_tags(self, filters=None): import re results = [] key_filters = [] resource_id_filters = [] resource_type_filters = [] value_filters = [] if filters is not None: for tag_filter in filters: if tag_filter in self.VALID_TAG_FILTERS: if tag_filter == "key": for value in filters[tag_filter]: key_filters.append( re.compile(simple_aws_filter_to_re(value)) ) if tag_filter == "resource-id": for value in filters[tag_filter]: resource_id_filters.append( re.compile(simple_aws_filter_to_re(value)) ) if tag_filter == "resource-type": for value in filters[tag_filter]: resource_type_filters.append(value) if tag_filter == "value": for value in filters[tag_filter]: value_filters.append( re.compile(simple_aws_filter_to_re(value)) ) for resource_id, tags in self.tags.items(): for key, value in tags.items(): add_result = False if filters is None: add_result = True else: key_pass = False id_pass = False type_pass = False value_pass = False if key_filters: for pattern in key_filters: if pattern.match(key) is not None: key_pass = True else: key_pass = True if resource_id_filters: for pattern in resource_id_filters: if pattern.match(resource_id) is not None: id_pass = True else: id_pass = True if resource_type_filters: for resource_type in resource_type_filters: if ( EC2_PREFIX_TO_RESOURCE[get_prefix(resource_id)] == resource_type ): type_pass = True else: type_pass = True if value_filters: for pattern in value_filters: if pattern.match(value) is not None: value_pass = True else: value_pass = True if key_pass and id_pass and type_pass and value_pass: add_result = True # If we're not filtering, or we are filtering and this if add_result: result = { "resource_id": resource_id, "key": key, "value": value, "resource_type": EC2_PREFIX_TO_RESOURCE[ get_prefix(resource_id) ], } results.append(result) return results class Ami(TaggedEC2Resource): def __init__( self, ec2_backend, ami_id, instance=None, source_ami=None, name=None, description=None, owner_id=OWNER_ID, owner_alias=None, public=False, virtualization_type=None, architecture=None, state="available", creation_date=None, platform=None, image_type="machine", image_location=None, hypervisor=None, root_device_type="standard", root_device_name="/dev/sda1", sriov="simple", region_name="us-east-1a", ): self.ec2_backend = ec2_backend self.id = ami_id self.state = state self.name = name self.image_type = image_type self.image_location = image_location self.owner_id = owner_id self.owner_alias = owner_alias self.description = description self.virtualization_type = virtualization_type self.architecture = architecture self.kernel_id = None self.platform = platform self.hypervisor = hypervisor self.root_device_name = root_device_name self.root_device_type = root_device_type self.sriov = sriov self.creation_date = ( utc_date_and_time() if creation_date is None else creation_date ) if instance: self.instance = instance self.instance_id = instance.id self.virtualization_type = instance.virtualization_type self.architecture = instance.architecture self.kernel_id = instance.kernel self.platform = instance.platform elif source_ami: """ http://docs.aws.amazon.com/AWSEC2/latest/UserGuide/CopyingAMIs.html "We don't copy launch permissions, user-defined tags, or Amazon S3 bucket permissions from the source AMI to the new AMI." ~ 2014.09.29 """ self.virtualization_type = source_ami.virtualization_type self.architecture = source_ami.architecture self.kernel_id = source_ami.kernel_id self.platform = source_ami.platform if not name: self.name = source_ami.name if not description: self.description = source_ami.description self.launch_permission_groups = set() self.launch_permission_users = set() if public: self.launch_permission_groups.add("all") # AWS auto-creates these, we should reflect the same. volume = self.ec2_backend.create_volume(15, region_name) self.ebs_snapshot = self.ec2_backend.create_snapshot( volume.id, "Auto-created snapshot for AMI %s" % self.id, owner_id ) self.ec2_backend.delete_volume(volume.id) @property def is_public(self): return "all" in self.launch_permission_groups @property def is_public_string(self): return str(self.is_public).lower() def get_filter_value(self, filter_name): if filter_name == "virtualization-type": return self.virtualization_type elif filter_name == "kernel-id": return self.kernel_id elif filter_name in ["architecture", "platform"]: return getattr(self, filter_name) elif filter_name == "image-id": return self.id elif filter_name == "is-public": return self.is_public_string elif filter_name == "state": return self.state elif filter_name == "name": return self.name elif filter_name == "owner-id": return self.owner_id elif filter_name == "owner-alias": return self.owner_alias else: return super(Ami, self).get_filter_value(filter_name, "DescribeImages") class AmiBackend(object): AMI_REGEX = re.compile("ami-[a-z0-9]+") def __init__(self): self.amis = {} self._load_amis() super(AmiBackend, self).__init__() def _load_amis(self): for ami in AMIS: ami_id = ami["ami_id"] # we are assuming the default loaded amis are owned by amazon # owner_alias is required for terraform owner filters ami["owner_alias"] = "amazon" self.amis[ami_id] = Ami(self, **ami) def create_image( self, instance_id, name=None, description=None, context=None, tag_specifications=None, ): # TODO: check that instance exists and pull info from it. ami_id = random_ami_id() instance = self.get_instance(instance_id) tags = [] for tag_specification in tag_specifications: resource_type = tag_specification["ResourceType"] if resource_type == "image": tags += tag_specification["Tag"] elif resource_type == "snapshot": raise NotImplementedError() else: raise InvalidTaggableResourceType(resource_type) ami = Ami( self, ami_id, instance=instance, source_ami=None, name=name, description=description, owner_id=OWNER_ID, ) for tag in tags: ami.add_tag(tag["Key"], tag["Value"]) self.amis[ami_id] = ami return ami def copy_image(self, source_image_id, source_region, name=None, description=None): source_ami = ec2_backends[source_region].describe_images( ami_ids=[source_image_id] )[0] ami_id = random_ami_id() ami = Ami( self, ami_id, instance=None, source_ami=source_ami, name=name, description=description, ) self.amis[ami_id] = ami return ami def describe_images( self, ami_ids=(), filters=None, exec_users=None, owners=None, context=None ): images = self.amis.values() if len(ami_ids): # boto3 seems to default to just searching based on ami ids if that parameter is passed # and if no images are found, it raises an errors malformed_ami_ids = [ ami_id for ami_id in ami_ids if not ami_id.startswith("ami-") ] if malformed_ami_ids: raise MalformedAMIIdError(malformed_ami_ids) images = [ami for ami in images if ami.id in ami_ids] if len(images) == 0: raise InvalidAMIIdError(ami_ids) else: # Limit images by launch permissions if exec_users: tmp_images = [] for ami in images: for user_id in exec_users: if user_id in ami.launch_permission_users: tmp_images.append(ami) images = tmp_images # Limit by owner ids if owners: # support filtering by Owners=['self'] if "self" in owners: owners = list( map(lambda o: OWNER_ID if o == "self" else o, owners,) ) images = [ ami for ami in images if ami.owner_id in owners or ami.owner_alias in owners ] # Generic filters if filters: return generic_filter(filters, images) return images def deregister_image(self, ami_id): if ami_id in self.amis: self.amis.pop(ami_id) return True raise InvalidAMIIdError(ami_id) def get_launch_permission_groups(self, ami_id): ami = self.describe_images(ami_ids=[ami_id])[0] return ami.launch_permission_groups def get_launch_permission_users(self, ami_id): ami = self.describe_images(ami_ids=[ami_id])[0] return ami.launch_permission_users def validate_permission_targets(self, user_ids=None, group=None): # If anything is invalid, nothing is added. (No partial success.) if user_ids: """ AWS docs: "The AWS account ID is a 12-digit number, such as 123456789012, that you use to construct Amazon Resource Names (ARNs)." http://docs.aws.amazon.com/general/latest/gr/acct-identifiers.html """ for user_id in user_ids: if len(user_id) != 12 or not user_id.isdigit(): raise InvalidAMIAttributeItemValueError("userId", user_id) if group and group != "all": raise InvalidAMIAttributeItemValueError("UserGroup", group) def add_launch_permission(self, ami_id, user_ids=None, group=None): ami = self.describe_images(ami_ids=[ami_id])[0] self.validate_permission_targets(user_ids=user_ids, group=group) if user_ids: for user_id in user_ids: ami.launch_permission_users.add(user_id) if group: ami.launch_permission_groups.add(group) return True def register_image(self, name=None, description=None): ami_id = random_ami_id() ami = Ami( self, ami_id, instance=None, source_ami=None, name=name, description=description, ) self.amis[ami_id] = ami return ami def remove_launch_permission(self, ami_id, user_ids=None, group=None): ami = self.describe_images(ami_ids=[ami_id])[0] self.validate_permission_targets(user_ids=user_ids, group=group) if user_ids: for user_id in user_ids: ami.launch_permission_users.discard(user_id) if group: ami.launch_permission_groups.discard(group) return True class Region(object): def __init__(self, name, endpoint, opt_in_status): self.name = name self.endpoint = endpoint self.opt_in_status = opt_in_status class Zone(object): def __init__(self, name, region_name, zone_id): self.name = name self.region_name = region_name self.zone_id = zone_id class RegionsAndZonesBackend(object): regions_opt_in_not_required = [ "af-south-1", "ap-northeast-1", "ap-northeast-2", "ap-northeast-3", "ap-south-1", "ap-southeast-1", "ap-southeast-2", "ca-central-1", "eu-central-1", "eu-north-1", "eu-south-1", "eu-west-1", "eu-west-2", "eu-west-3", "sa-east-1", "us-east-1", "us-east-2", "us-west-1", "us-west-2", ] regions = [] for region in Session().get_available_regions("ec2"): if region in regions_opt_in_not_required: regions.append( Region( region, "ec2.{}.amazonaws.com".format(region), "opt-in-not-required" ) ) else: regions.append( Region(region, "ec2.{}.amazonaws.com".format(region), "not-opted-in") ) for region in Session().get_available_regions("ec2", partition_name="aws-us-gov"): regions.append( Region(region, "ec2.{}.amazonaws.com".format(region), "opt-in-not-required") ) for region in Session().get_available_regions("ec2", partition_name="aws-cn"): regions.append( Region( region, "ec2.{}.amazonaws.com.cn".format(region), "opt-in-not-required" ) ) zones = { "af-south-1": [ Zone(region_name="af-south-1", name="af-south-1a", zone_id="afs1-az1"), Zone(region_name="af-south-1", name="af-south-1b", zone_id="afs1-az2"), Zone(region_name="af-south-1", name="af-south-1c", zone_id="afs1-az3"), ], "ap-south-1": [ Zone(region_name="ap-south-1", name="ap-south-1a", zone_id="aps1-az1"), Zone(region_name="ap-south-1", name="ap-south-1b", zone_id="aps1-az3"), ], "eu-west-3": [ Zone(region_name="eu-west-3", name="eu-west-3a", zone_id="euw3-az1"), Zone(region_name="eu-west-3", name="eu-west-3b", zone_id="euw3-az2"), Zone(region_name="eu-west-3", name="eu-west-3c", zone_id="euw3-az3"), ], "eu-north-1": [ Zone(region_name="eu-north-1", name="eu-north-1a", zone_id="eun1-az1"), Zone(region_name="eu-north-1", name="eu-north-1b", zone_id="eun1-az2"), Zone(region_name="eu-north-1", name="eu-north-1c", zone_id="eun1-az3"), ], "eu-west-2": [ Zone(region_name="eu-west-2", name="eu-west-2a", zone_id="euw2-az2"), Zone(region_name="eu-west-2", name="eu-west-2b", zone_id="euw2-az3"), Zone(region_name="eu-west-2", name="eu-west-2c", zone_id="euw2-az1"), ], "eu-west-1": [ Zone(region_name="eu-west-1", name="eu-west-1a", zone_id="euw1-az3"), Zone(region_name="eu-west-1", name="eu-west-1b", zone_id="euw1-az1"), Zone(region_name="eu-west-1", name="eu-west-1c", zone_id="euw1-az2"), ], "ap-northeast-3": [ Zone( region_name="ap-northeast-3", name="ap-northeast-3a", zone_id="apne3-az1", ), Zone( region_name="ap-northeast-3", name="ap-northeast-3b", zone_id="apne3-az2", ), Zone( region_name="ap-northeast-3", name="ap-northeast-3c", zone_id="apne3-az3", ), ], "ap-northeast-2": [ Zone( region_name="ap-northeast-2", name="ap-northeast-2a", zone_id="apne2-az1", ), Zone( region_name="ap-northeast-2", name="ap-northeast-2b", zone_id="apne2-az2", ), Zone( region_name="ap-northeast-2", name="ap-northeast-2c", zone_id="apne2-az3", ), Zone( region_name="ap-northeast-2", name="ap-northeast-2d", zone_id="apne2-az4", ), ], "ap-northeast-1": [ Zone( region_name="ap-northeast-1", name="ap-northeast-1a", zone_id="apne1-az4", ), Zone( region_name="ap-northeast-1", name="ap-northeast-1c", zone_id="apne1-az1", ), Zone( region_name="ap-northeast-1", name="ap-northeast-1d", zone_id="apne1-az2", ), ], "ap-east-1": [ Zone(region_name="ap-east-1", name="ap-east-1a", zone_id="ape1-az1"), Zone(region_name="ap-east-1", name="ap-east-1b", zone_id="ape1-az2"), Zone(region_name="ap-east-1", name="ap-east-1c", zone_id="ape1-az3"), ], "sa-east-1": [ Zone(region_name="sa-east-1", name="sa-east-1a", zone_id="sae1-az1"), Zone(region_name="sa-east-1", name="sa-east-1c", zone_id="sae1-az3"), ], "ca-central-1": [ Zone(region_name="ca-central-1", name="ca-central-1a", zone_id="cac1-az1"), Zone(region_name="ca-central-1", name="ca-central-1b", zone_id="cac1-az2"), ], "ap-southeast-1": [ Zone( region_name="ap-southeast-1", name="ap-southeast-1a", zone_id="apse1-az1", ), Zone( region_name="ap-southeast-1", name="ap-southeast-1b", zone_id="apse1-az2", ), Zone( region_name="ap-southeast-1", name="ap-southeast-1c", zone_id="apse1-az3", ), ], "ap-southeast-2": [ Zone( region_name="ap-southeast-2", name="ap-southeast-2a", zone_id="apse2-az1", ), Zone( region_name="ap-southeast-2", name="ap-southeast-2b", zone_id="apse2-az3", ), Zone( region_name="ap-southeast-2", name="ap-southeast-2c", zone_id="apse2-az2", ), ], "eu-central-1": [ Zone(region_name="eu-central-1", name="eu-central-1a", zone_id="euc1-az2"), Zone(region_name="eu-central-1", name="eu-central-1b", zone_id="euc1-az3"), Zone(region_name="eu-central-1", name="eu-central-1c", zone_id="euc1-az1"), ], "eu-south-1": [ Zone(region_name="eu-south-1", name="eu-south-1a", zone_id="eus1-az1"), Zone(region_name="eu-south-1", name="eu-south-1b", zone_id="eus1-az2"), Zone(region_name="eu-south-1", name="eu-south-1c", zone_id="eus1-az3"), ], "us-east-1": [ Zone(region_name="us-east-1", name="us-east-1a", zone_id="use1-az6"), Zone(region_name="us-east-1", name="us-east-1b", zone_id="use1-az1"), Zone(region_name="us-east-1", name="us-east-1c", zone_id="use1-az2"), Zone(region_name="us-east-1", name="us-east-1d", zone_id="use1-az4"), Zone(region_name="us-east-1", name="us-east-1e", zone_id="use1-az3"), Zone(region_name="us-east-1", name="us-east-1f", zone_id="use1-az5"), ], "us-east-2": [ Zone(region_name="us-east-2", name="us-east-2a", zone_id="use2-az1"), Zone(region_name="us-east-2", name="us-east-2b", zone_id="use2-az2"), Zone(region_name="us-east-2", name="us-east-2c", zone_id="use2-az3"), ], "us-west-1": [ Zone(region_name="us-west-1", name="us-west-1a", zone_id="usw1-az3"), Zone(region_name="us-west-1", name="us-west-1b", zone_id="usw1-az1"), ], "us-west-2": [ Zone(region_name="us-west-2", name="us-west-2a", zone_id="usw2-az2"), Zone(region_name="us-west-2", name="us-west-2b", zone_id="usw2-az1"), Zone(region_name="us-west-2", name="us-west-2c", zone_id="usw2-az3"), ], "me-south-1": [ Zone(region_name="me-south-1", name="me-south-1a", zone_id="mes1-az1"), Zone(region_name="me-south-1", name="me-south-1b", zone_id="mes1-az2"), Zone(region_name="me-south-1", name="me-south-1c", zone_id="mes1-az3"), ], "cn-north-1": [ Zone(region_name="cn-north-1", name="cn-north-1a", zone_id="cnn1-az1"), Zone(region_name="cn-north-1", name="cn-north-1b", zone_id="cnn1-az2"), ], "cn-northwest-1": [ Zone( region_name="cn-northwest-1", name="cn-northwest-1a", zone_id="cnnw1-az1", ), Zone( region_name="cn-northwest-1", name="cn-northwest-1b", zone_id="cnnw1-az2", ), Zone( region_name="cn-northwest-1", name="cn-northwest-1c", zone_id="cnnw1-az3", ), ], "us-gov-west-1": [ Zone( region_name="us-gov-west-1", name="us-gov-west-1a", zone_id="usgw1-az1" ), Zone( region_name="us-gov-west-1", name="us-gov-west-1b", zone_id="usgw1-az2" ), Zone( region_name="us-gov-west-1", name="us-gov-west-1c", zone_id="usgw1-az3" ), ], "us-gov-east-1": [ Zone( region_name="us-gov-east-1", name="us-gov-east-1a", zone_id="usge1-az1" ), Zone( region_name="us-gov-east-1", name="us-gov-east-1b", zone_id="usge1-az2" ), Zone( region_name="us-gov-east-1", name="us-gov-east-1c", zone_id="usge1-az3" ), ], } def describe_regions(self, region_names=[]): if len(region_names) == 0: return self.regions ret = [] for name in region_names: for region in self.regions: if region.name == name: ret.append(region) return ret def describe_availability_zones(self): return self.zones[self.region_name] def get_zone_by_name(self, name): for zone in self.zones[self.region_name]: if zone.name == name: return zone class SecurityRule(object): def __init__( self, ip_protocol, from_port, to_port, ip_ranges, source_groups, prefix_list_ids=None, ): self.id = random_security_group_rule_id() self.ip_protocol = str(ip_protocol) self.ip_ranges = ip_ranges or [] self.source_groups = source_groups self.prefix_list_ids = prefix_list_ids or [] self.from_port = self.to_port = None if self.ip_protocol != "-1": self.from_port = int(from_port) self.to_port = int(to_port) ip_protocol_keywords = { "tcp": "tcp", "6": "tcp", "udp": "udp", "17": "udp", "all": "-1", "-1": "-1", "tCp": "tcp", "6": "tcp", "UDp": "udp", "17": "udp", "ALL": "-1", "icMp": "icmp", "1": "icmp", } self.ip_protocol = ip_protocol_keywords.get(self.ip_protocol) @property def owner_id(self): return ACCOUNT_ID def __eq__(self, other): if self.ip_protocol != other.ip_protocol: return False if self.ip_ranges != other.ip_ranges: return False if self.source_groups != other.source_groups: return False if self.prefix_list_ids != other.prefix_list_ids: return False if self.ip_protocol != "-1": if self.from_port != other.from_port: return False if self.to_port != other.to_port: return False return True class SecurityGroup(TaggedEC2Resource, CloudFormationModel): def __init__( self, ec2_backend, group_id, name, description, vpc_id=None, tags=None ): self.ec2_backend = ec2_backend self.id = group_id self.name = name self.description = description self.ingress_rules = [] self.egress_rules = [ SecurityRule("-1", None, None, [{"CidrIp": "0.0.0.0/0"}], []), ] self.enis = {} self.vpc_id = vpc_id self.owner_id = ACCOUNT_ID self.add_tags(tags or {}) # Append default IPv6 egress rule for VPCs with IPv6 support if vpc_id: vpc = self.ec2_backend.vpcs.get(vpc_id) if vpc and len(vpc.get_cidr_block_association_set(ipv6=True)) > 0: self.egress_rules.append( SecurityRule("-1", None, None, [{"CidrIpv6": "::/0"}], []) ) @staticmethod def cloudformation_name_type(): return "GroupName" @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-securitygroup.html return "AWS::EC2::SecurityGroup" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] ec2_backend = ec2_backends[region_name] vpc_id = properties.get("VpcId") security_group = ec2_backend.create_security_group( name=resource_name, description=properties.get("GroupDescription"), vpc_id=vpc_id, ) for tag in properties.get("Tags", []): tag_key = tag["Key"] tag_value = tag["Value"] security_group.add_tag(tag_key, tag_value) for ingress_rule in properties.get("SecurityGroupIngress", []): source_group_id = ingress_rule.get("SourceSecurityGroupId",) ec2_backend.authorize_security_group_ingress( group_name_or_id=security_group.id, ip_protocol=ingress_rule["IpProtocol"], from_port=ingress_rule["FromPort"], to_port=ingress_rule["ToPort"], ip_ranges=ingress_rule.get("CidrIp"), source_group_ids=[source_group_id] if source_group_id else [], vpc_id=vpc_id, ) return security_group @classmethod def update_from_cloudformation_json( cls, original_resource, new_resource_name, cloudformation_json, region_name ): cls._delete_security_group_given_vpc_id( original_resource.name, original_resource.vpc_id, region_name ) return cls.create_from_cloudformation_json( new_resource_name, cloudformation_json, region_name ) @classmethod def delete_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] vpc_id = properties.get("VpcId") cls._delete_security_group_given_vpc_id(resource_name, vpc_id, region_name) @classmethod def _delete_security_group_given_vpc_id(cls, resource_name, vpc_id, region_name): ec2_backend = ec2_backends[region_name] security_group = ec2_backend.get_security_group_from_name(resource_name, vpc_id) if security_group: security_group.delete(region_name) def delete(self, region_name): """Not exposed as part of the ELB API - used for CloudFormation.""" self.ec2_backend.delete_security_group(group_id=self.id) @property def physical_resource_id(self): return self.id def matches_filter(self, key, filter_value): def to_attr(filter_name): attr = None if filter_name == "group-name": attr = "name" elif filter_name == "group-id": attr = "id" elif filter_name == "vpc-id": attr = "vpc_id" else: attr = filter_name.replace("-", "_") return attr if key.startswith("ip-permission"): match = re.search(r"ip-permission.(.*)", key) ingress_attr = to_attr(match.groups()[0]) for ingress in self.ingress_rules: if str(getattr(ingress, ingress_attr)) in filter_value: return True elif is_tag_filter(key): tag_value = self.get_filter_value(key) if isinstance(filter_value, list): return tag_filter_matches(self, key, filter_value) return tag_value in filter_value else: attr_name = to_attr(key) return getattr(self, attr_name) in filter_value return False def matches_filters(self, filters): for key, value in filters.items(): if not self.matches_filter(key, value): return False return True def get_cfn_attribute(self, attribute_name): from moto.cloudformation.exceptions import UnformattedGetAttTemplateException if attribute_name == "GroupId": return self.id raise UnformattedGetAttTemplateException() def add_ingress_rule(self, rule): if rule in self.ingress_rules: raise InvalidPermissionDuplicateError() self.ingress_rules.append(rule) def add_egress_rule(self, rule): if rule in self.egress_rules: raise InvalidPermissionDuplicateError() self.egress_rules.append(rule) def get_number_of_ingress_rules(self): return sum( len(rule.ip_ranges) + len(rule.source_groups) for rule in self.ingress_rules ) def get_number_of_egress_rules(self): return sum( len(rule.ip_ranges) + len(rule.source_groups) for rule in self.egress_rules ) class SecurityGroupBackend(object): def __init__(self): # the key in the dict group is the vpc_id or None (non-vpc) self.groups = defaultdict(dict) # This will help us in RuleLimitExceed errors. self.sg_old_ingress_ruls = {} self.sg_old_egress_ruls = {} # Create the default security group self.create_security_group("default", "default group") super(SecurityGroupBackend, self).__init__() def create_security_group( self, name, description, vpc_id=None, tags=None, force=False ): if not description: raise MissingParameterError("GroupDescription") group_id = random_security_group_id() if not force: existing_group = self.get_security_group_from_name(name, vpc_id) if existing_group: raise InvalidSecurityGroupDuplicateError(name) group = SecurityGroup( self, group_id, name, description, vpc_id=vpc_id, tags=tags ) self.groups[vpc_id][group_id] = group return group def describe_security_groups(self, group_ids=None, groupnames=None, filters=None): matches = itertools.chain(*[x.values() for x in self.groups.values()]) if group_ids: matches = [grp for grp in matches if grp.id in group_ids] if len(group_ids) > len(matches): unknown_ids = set(group_ids) - set(matches) raise InvalidSecurityGroupNotFoundError(unknown_ids) if groupnames: matches = [grp for grp in matches if grp.name in groupnames] if len(groupnames) > len(matches): unknown_names = set(groupnames) - set(matches) raise InvalidSecurityGroupNotFoundError(unknown_names) if filters: matches = [grp for grp in matches if grp.matches_filters(filters)] return matches def _delete_security_group(self, vpc_id, group_id): if self.groups[vpc_id][group_id].enis: raise DependencyViolationError( "{0} is being utilized by {1}".format(group_id, "ENIs") ) return self.groups[vpc_id].pop(group_id) def delete_security_group(self, name=None, group_id=None): if group_id: # loop over all the SGs, find the right one for vpc_id, groups in self.groups.items(): if group_id in groups: return self._delete_security_group(vpc_id, group_id) raise InvalidSecurityGroupNotFoundError(group_id) elif name: # Group Name. Has to be in standard EC2, VPC needs to be # identified by group_id group = self.get_security_group_from_name(name) if group: return self._delete_security_group(None, group.id) raise InvalidSecurityGroupNotFoundError(name) def get_security_group_from_id(self, group_id): # 2 levels of chaining necessary since it's a complex structure all_groups = itertools.chain.from_iterable( [x.values() for x in self.groups.values()] ) for group in all_groups: if group.id == group_id: return group def get_security_group_from_name(self, name, vpc_id=None): for group_id, group in self.groups[vpc_id].items(): if group.name == name: return group def get_security_group_by_name_or_id(self, group_name_or_id, vpc_id): # try searching by id, fallbacks to name search group = self.get_security_group_from_id(group_name_or_id) if group is None: group = self.get_security_group_from_name(group_name_or_id, vpc_id) return group def authorize_security_group_ingress( self, group_name_or_id, ip_protocol, from_port, to_port, ip_ranges, source_group_names=None, source_group_ids=None, prefix_list_ids=None, vpc_id=None, ): group = self.get_security_group_by_name_or_id(group_name_or_id, vpc_id) if group is None: raise InvalidSecurityGroupNotFoundError(group_name_or_id) if ip_ranges: if isinstance(ip_ranges, str): ip_ranges = [{"CidrIp": str(ip_ranges)}] elif not isinstance(ip_ranges, list): ip_ranges = [json.loads(ip_ranges)] if ip_ranges: for cidr in ip_ranges: if ( type(cidr) is dict and not any( [ is_valid_cidr(cidr.get("CidrIp", "")), is_valid_ipv6_cidr(cidr.get("CidrIpv6", "")), ] ) ) or ( type(cidr) is str and not any([is_valid_cidr(cidr), is_valid_ipv6_cidr(cidr)]) ): raise InvalidCIDRSubnetError(cidr=cidr) self._verify_group_will_respect_rule_count_limit( group, group.get_number_of_ingress_rules(), ip_ranges, source_group_names, source_group_ids, ) source_group_names = source_group_names if source_group_names else [] source_group_ids = source_group_ids if source_group_ids else [] source_groups = [] for source_group_name in source_group_names: source_group = self.get_security_group_from_name(source_group_name, vpc_id) if source_group: source_groups.append(source_group) else: raise InvalidSecurityGroupNotFoundError(source_group_name) # for VPCs for source_group_id in source_group_ids: source_group = self.get_security_group_from_id(source_group_id) if source_group: source_groups.append(source_group) else: raise InvalidSecurityGroupNotFoundError(source_group_id) security_rule = SecurityRule( ip_protocol, from_port, to_port, ip_ranges, source_groups, prefix_list_ids ) group.add_ingress_rule(security_rule) return security_rule, group def revoke_security_group_ingress( self, group_name_or_id, ip_protocol, from_port, to_port, ip_ranges, source_group_names=None, source_group_ids=None, prefix_list_ids=None, vpc_id=None, ): group = self.get_security_group_by_name_or_id(group_name_or_id, vpc_id) source_groups = [] for source_group_name in source_group_names: source_group = self.get_security_group_from_name(source_group_name, vpc_id) if source_group: source_groups.append(source_group) for source_group_id in source_group_ids: source_group = self.get_security_group_from_id(source_group_id) if source_group: source_groups.append(source_group) security_rule = SecurityRule( ip_protocol, from_port, to_port, ip_ranges, source_groups, prefix_list_ids ) if security_rule in group.ingress_rules: group.ingress_rules.remove(security_rule) self.sg_old_ingress_ruls[group.id] = group.ingress_rules.copy() return security_rule raise InvalidPermissionNotFoundError() def authorize_security_group_egress( self, group_name_or_id, ip_protocol, from_port, to_port, ip_ranges, source_group_names=None, source_group_ids=None, prefix_list_ids=None, vpc_id=None, ): group = self.get_security_group_by_name_or_id(group_name_or_id, vpc_id) if group is None: raise InvalidSecurityGroupNotFoundError(group_name_or_id) if ip_ranges and not isinstance(ip_ranges, list): if isinstance(ip_ranges, str) and "CidrIp" not in ip_ranges: ip_ranges = [{"CidrIp": ip_ranges}] else: ip_ranges = [json.loads(ip_ranges)] if ip_ranges: for cidr in ip_ranges: if ( type(cidr) is dict and not any( [ is_valid_cidr(cidr.get("CidrIp", "")), is_valid_ipv6_cidr(cidr.get("CidrIpv6", "")), ] ) ) or ( type(cidr) is str and not any([is_valid_cidr(cidr), is_valid_ipv6_cidr(cidr)]) ): raise InvalidCIDRSubnetError(cidr=cidr) self._verify_group_will_respect_rule_count_limit( group, group.get_number_of_egress_rules(), ip_ranges, source_group_names, source_group_ids, egress=True, ) source_group_names = source_group_names if source_group_names else [] source_group_ids = source_group_ids if source_group_ids else [] source_groups = [] for source_group_name in source_group_names: source_group = self.get_security_group_from_name(source_group_name, vpc_id) if source_group: source_groups.append(source_group) # for VPCs for source_group_id in source_group_ids: source_group = self.get_security_group_from_id(source_group_id) if source_group: source_groups.append(source_group) if group.vpc_id: vpc = self.vpcs.get(group.vpc_id) if vpc and not len(vpc.get_cidr_block_association_set(ipv6=True)) > 0: for item in ip_ranges.copy(): if "CidrIpv6" in item: ip_ranges.remove(item) security_rule = SecurityRule( ip_protocol, from_port, to_port, ip_ranges, source_groups, prefix_list_ids ) group.add_egress_rule(security_rule) return security_rule, group def revoke_security_group_egress( self, group_name_or_id, ip_protocol, from_port, to_port, ip_ranges, source_group_names=None, source_group_ids=None, prefix_list_ids=None, vpc_id=None, ): group = self.get_security_group_by_name_or_id(group_name_or_id, vpc_id) source_groups = [] for source_group_name in source_group_names: source_group = self.get_security_group_from_name(source_group_name, vpc_id) if source_group: source_groups.append(source_group) for source_group_id in source_group_ids: source_group = self.get_security_group_from_id(source_group_id) if source_group: source_groups.append(source_group) # I don't believe this is required after changing the default egress rule # to be {'CidrIp': '0.0.0.0/0'} instead of just '0.0.0.0/0' # Not sure why this would return only the IP if it was 0.0.0.0/0 instead of # the ip_range? # for ip in ip_ranges: # ip_ranges = [ip.get("CidrIp") if ip.get("CidrIp") == "0.0.0.0/0" else ip] if group.vpc_id: vpc = self.vpcs.get(group.vpc_id) if vpc and not len(vpc.get_cidr_block_association_set(ipv6=True)) > 0: for item in ip_ranges.copy(): if "CidrIpv6" in item: ip_ranges.remove(item) security_rule = SecurityRule( ip_protocol, from_port, to_port, ip_ranges, source_groups, prefix_list_ids ) if security_rule in group.egress_rules: group.egress_rules.remove(security_rule) self.sg_old_egress_ruls[group.id] = group.egress_rules.copy() return security_rule raise InvalidPermissionNotFoundError() def _verify_group_will_respect_rule_count_limit( self, group, current_rule_nb, ip_ranges, source_group_names=None, source_group_ids=None, egress=False, ): max_nb_rules = 50 if group.vpc_id else 100 future_group_nb_rules = current_rule_nb if ip_ranges: future_group_nb_rules += len(ip_ranges) if source_group_ids: future_group_nb_rules += len(source_group_ids) if source_group_names: future_group_nb_rules += len(source_group_names) if future_group_nb_rules > max_nb_rules: if group and not egress: group.ingress_rules = self.sg_old_ingress_ruls[group.id] if group and egress: group.egress_rules = self.sg_old_egress_ruls[group.id] raise RulesPerSecurityGroupLimitExceededError class SecurityGroupIngress(CloudFormationModel): def __init__(self, security_group, properties): self.security_group = security_group self.properties = properties @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-securitygroupingress.html return "AWS::EC2::SecurityGroupIngress" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] ec2_backend = ec2_backends[region_name] group_name = properties.get("GroupName") group_id = properties.get("GroupId") ip_protocol = properties.get("IpProtocol") cidr_ip = properties.get("CidrIp") cidr_desc = properties.get("Description") cidr_ipv6 = properties.get("CidrIpv6") from_port = properties.get("FromPort") source_security_group_id = properties.get("SourceSecurityGroupId") source_security_group_name = properties.get("SourceSecurityGroupName") # source_security_owner_id = # properties.get("SourceSecurityGroupOwnerId") # IGNORED AT THE MOMENT to_port = properties.get("ToPort") assert group_id or group_name assert ( source_security_group_name or cidr_ip or cidr_ipv6 or source_security_group_id ) assert ip_protocol if source_security_group_id: source_security_group_ids = [source_security_group_id] else: source_security_group_ids = None if source_security_group_name: source_security_group_names = [source_security_group_name] else: source_security_group_names = None if cidr_ip: ip_ranges = [{"CidrIp": cidr_ip, "Description": cidr_desc}] else: ip_ranges = [] if group_id: security_group = ec2_backend.describe_security_groups(group_ids=[group_id])[ 0 ] else: security_group = ec2_backend.describe_security_groups( groupnames=[group_name] )[0] ec2_backend.authorize_security_group_ingress( group_name_or_id=security_group.id, ip_protocol=ip_protocol, from_port=from_port, to_port=to_port, ip_ranges=ip_ranges, source_group_ids=source_security_group_ids, source_group_names=source_security_group_names, ) return cls(security_group, properties) class VolumeAttachment(CloudFormationModel): def __init__(self, volume, instance, device, status): self.volume = volume self.attach_time = utc_date_and_time() self.instance = instance self.device = device self.status = status @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-volumeattachment.html return "AWS::EC2::VolumeAttachment" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] instance_id = properties["InstanceId"] volume_id = properties["VolumeId"] ec2_backend = ec2_backends[region_name] attachment = ec2_backend.attach_volume( volume_id=volume_id, instance_id=instance_id, device_path=properties["Device"], ) return attachment class Volume(TaggedEC2Resource, CloudFormationModel): def __init__( self, ec2_backend, volume_id, size, zone, snapshot_id=None, encrypted=False, kms_key_id=None, ): self.id = volume_id self.size = size self.zone = zone self.create_time = utc_date_and_time() self.attachment = None self.snapshot_id = snapshot_id self.ec2_backend = ec2_backend self.encrypted = encrypted self.kms_key_id = kms_key_id @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-volume.html return "AWS::EC2::Volume" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] ec2_backend = ec2_backends[region_name] volume = ec2_backend.create_volume( size=properties.get("Size"), zone_name=properties.get("AvailabilityZone") ) return volume @property def physical_resource_id(self): return self.id @property def status(self): if self.attachment: return "in-use" else: return "available" def get_filter_value(self, filter_name): if filter_name.startswith("attachment") and not self.attachment: return None elif filter_name == "attachment.attach-time": return self.attachment.attach_time elif filter_name == "attachment.device": return self.attachment.device elif filter_name == "attachment.instance-id": return self.attachment.instance.id elif filter_name == "attachment.status": return self.attachment.status elif filter_name == "create-time": return self.create_time elif filter_name == "size": return self.size elif filter_name == "snapshot-id": return self.snapshot_id elif filter_name == "status": return self.status elif filter_name == "volume-id": return self.id elif filter_name == "encrypted": return str(self.encrypted).lower() elif filter_name == "availability-zone": return self.zone.name else: return super(Volume, self).get_filter_value(filter_name, "DescribeVolumes") class Snapshot(TaggedEC2Resource): def __init__( self, ec2_backend, snapshot_id, volume, description, encrypted=False, owner_id=OWNER_ID, ): self.id = snapshot_id self.volume = volume self.description = description self.start_time = utc_date_and_time() self.create_volume_permission_groups = set() self.create_volume_permission_userids = set() self.ec2_backend = ec2_backend self.status = "completed" self.encrypted = encrypted self.owner_id = owner_id def get_filter_value(self, filter_name): if filter_name == "description": return self.description elif filter_name == "snapshot-id": return self.id elif filter_name == "start-time": return self.start_time elif filter_name == "volume-id": return self.volume.id elif filter_name == "volume-size": return self.volume.size elif filter_name == "encrypted": return str(self.encrypted).lower() elif filter_name == "status": return self.status elif filter_name == "owner-id": return self.owner_id else: return super(Snapshot, self).get_filter_value( filter_name, "DescribeSnapshots" ) class EBSBackend(object): def __init__(self): self.volumes = {} self.attachments = {} self.snapshots = {} super(EBSBackend, self).__init__() def create_volume( self, size, zone_name, snapshot_id=None, encrypted=False, kms_key_id=None ): if kms_key_id and not encrypted: raise InvalidParameterDependency("KmsKeyId", "Encrypted") if encrypted and not kms_key_id: kms_key_id = self._get_default_encryption_key() volume_id = random_volume_id() zone = self.get_zone_by_name(zone_name) if snapshot_id: snapshot = self.get_snapshot(snapshot_id) if size is None: size = snapshot.volume.size if snapshot.encrypted: encrypted = snapshot.encrypted volume = Volume(self, volume_id, size, zone, snapshot_id, encrypted, kms_key_id) self.volumes[volume_id] = volume return volume def describe_volumes(self, volume_ids=None, filters=None): matches = self.volumes.values() if volume_ids: matches = [vol for vol in matches if vol.id in volume_ids] if len(volume_ids) > len(matches): unknown_ids = set(volume_ids) - set(matches) raise InvalidVolumeIdError(unknown_ids) if filters: matches = generic_filter(filters, matches) return matches def get_volume(self, volume_id): volume = self.volumes.get(volume_id, None) if not volume: raise InvalidVolumeIdError(volume_id) return volume def delete_volume(self, volume_id): if volume_id in self.volumes: volume = self.volumes[volume_id] if volume.attachment: raise VolumeInUseError(volume_id, volume.attachment.instance.id) return self.volumes.pop(volume_id) raise InvalidVolumeIdError(volume_id) def attach_volume( self, volume_id, instance_id, device_path, delete_on_termination=False ): volume = self.get_volume(volume_id) instance = self.get_instance(instance_id) if not volume or not instance: return False volume.attachment = VolumeAttachment(volume, instance, device_path, "attached") # Modify instance to capture mount of block device. bdt = BlockDeviceType( volume_id=volume_id, status=volume.status, size=volume.size, attach_time=utc_date_and_time(), delete_on_termination=delete_on_termination, ) instance.block_device_mapping[device_path] = bdt return volume.attachment def detach_volume(self, volume_id, instance_id, device_path): volume = self.get_volume(volume_id) instance = self.get_instance(instance_id) old_attachment = volume.attachment if not old_attachment: raise InvalidVolumeAttachmentError(volume_id, instance_id) device_path = device_path or old_attachment.device try: del instance.block_device_mapping[device_path] except KeyError: raise InvalidVolumeDetachmentError(volume_id, instance_id, device_path) old_attachment.status = "detached" volume.attachment = None return old_attachment def create_snapshot(self, volume_id, description, owner_id=None): snapshot_id = random_snapshot_id() volume = self.get_volume(volume_id) params = [self, snapshot_id, volume, description, volume.encrypted] if owner_id: params.append(owner_id) snapshot = Snapshot(*params) self.snapshots[snapshot_id] = snapshot return snapshot def describe_snapshots(self, snapshot_ids=None, filters=None): matches = self.snapshots.values() if snapshot_ids: matches = [snap for snap in matches if snap.id in snapshot_ids] if len(snapshot_ids) > len(matches): unknown_ids = set(snapshot_ids) - set(matches) raise InvalidSnapshotIdError(unknown_ids) if filters: matches = generic_filter(filters, matches) return matches def copy_snapshot(self, source_snapshot_id, source_region, description=None): source_snapshot = ec2_backends[source_region].describe_snapshots( snapshot_ids=[source_snapshot_id] )[0] snapshot_id = random_snapshot_id() snapshot = Snapshot( self, snapshot_id, volume=source_snapshot.volume, description=description, encrypted=source_snapshot.encrypted, ) self.snapshots[snapshot_id] = snapshot return snapshot def get_snapshot(self, snapshot_id): snapshot = self.snapshots.get(snapshot_id, None) if not snapshot: raise InvalidSnapshotIdError(snapshot_id) return snapshot def delete_snapshot(self, snapshot_id): if snapshot_id in self.snapshots: return self.snapshots.pop(snapshot_id) raise InvalidSnapshotIdError(snapshot_id) def get_create_volume_permission_groups(self, snapshot_id): snapshot = self.get_snapshot(snapshot_id) return snapshot.create_volume_permission_groups def get_create_volume_permission_userids(self, snapshot_id): snapshot = self.get_snapshot(snapshot_id) return snapshot.create_volume_permission_userids def add_create_volume_permission(self, snapshot_id, user_ids=None, groups=None): snapshot = self.get_snapshot(snapshot_id) if user_ids: snapshot.create_volume_permission_userids.update(user_ids) if groups and groups != ["all"]: raise InvalidAMIAttributeItemValueError("UserGroup", groups) else: snapshot.create_volume_permission_groups.update(groups) return True def remove_create_volume_permission(self, snapshot_id, user_ids=None, groups=None): snapshot = self.get_snapshot(snapshot_id) if user_ids: snapshot.create_volume_permission_userids.difference_update(user_ids) if groups and groups != ["all"]: raise InvalidAMIAttributeItemValueError("UserGroup", groups) else: snapshot.create_volume_permission_groups.difference_update(groups) return True def _get_default_encryption_key(self): # https://aws.amazon.com/kms/features/#AWS_Service_Integration # An AWS managed CMK is created automatically when you first create # an encrypted resource using an AWS service integrated with KMS. kms = kms_backends[self.region_name] ebs_alias = "alias/aws/ebs" if not kms.alias_exists(ebs_alias): key = kms.create_key( policy="", key_usage="ENCRYPT_DECRYPT", customer_master_key_spec="SYMMETRIC_DEFAULT", description="Default master key that protects my EBS volumes when no other key is defined", tags=None, region=self.region_name, ) kms.add_alias(key.id, ebs_alias) ebs_key = kms.describe_key(ebs_alias) return ebs_key.arn class VPC(TaggedEC2Resource, CloudFormationModel): def __init__( self, ec2_backend, vpc_id, cidr_block, is_default, instance_tenancy="default", amazon_provided_ipv6_cidr_block=False, ): self.ec2_backend = ec2_backend self.id = vpc_id self.cidr_block = cidr_block self.cidr_block_association_set = {} self.dhcp_options = None self.state = "available" self.instance_tenancy = instance_tenancy self.is_default = "true" if is_default else "false" self.enable_dns_support = "true" self.classic_link_enabled = "false" self.classic_link_dns_supported = "false" # This attribute is set to 'true' only for default VPCs # or VPCs created using the wizard of the VPC console self.enable_dns_hostnames = "true" if is_default else "false" self.associate_vpc_cidr_block(cidr_block) if amazon_provided_ipv6_cidr_block: self.associate_vpc_cidr_block( cidr_block, amazon_provided_ipv6_cidr_block=amazon_provided_ipv6_cidr_block, ) @property def owner_id(self): return ACCOUNT_ID @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-vpc.html return "AWS::EC2::VPC" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] ec2_backend = ec2_backends[region_name] vpc = ec2_backend.create_vpc( cidr_block=properties["CidrBlock"], instance_tenancy=properties.get("InstanceTenancy", "default"), ) for tag in properties.get("Tags", []): tag_key = tag["Key"] tag_value = tag["Value"] vpc.add_tag(tag_key, tag_value) return vpc @property def physical_resource_id(self): return self.id def get_filter_value(self, filter_name): if filter_name in ("vpc-id", "vpcId"): return self.id elif filter_name in ("cidr", "cidr-block", "cidrBlock"): return self.cidr_block elif filter_name in ( "cidr-block-association.cidr-block", "ipv6-cidr-block-association.ipv6-cidr-block", ): return [ c["cidr_block"] for c in self.get_cidr_block_association_set(ipv6="ipv6" in filter_name) ] elif filter_name in ( "cidr-block-association.association-id", "ipv6-cidr-block-association.association-id", ): return self.cidr_block_association_set.keys() elif filter_name in ( "cidr-block-association.state", "ipv6-cidr-block-association.state", ): return [ c["cidr_block_state"]["state"] for c in self.get_cidr_block_association_set(ipv6="ipv6" in filter_name) ] elif filter_name in ("instance_tenancy", "InstanceTenancy"): return self.instance_tenancy elif filter_name in ("is-default", "isDefault"): return self.is_default elif filter_name == "state": return self.state elif filter_name in ("dhcp-options-id", "dhcpOptionsId"): if not self.dhcp_options: return None return self.dhcp_options.id else: return super(VPC, self).get_filter_value(filter_name, "DescribeVpcs") def modify_vpc_tenancy(self, tenancy): if tenancy != "default": raise UnsupportedTenancy(tenancy) self.instance_tenancy = tenancy return True def associate_vpc_cidr_block( self, cidr_block, amazon_provided_ipv6_cidr_block=False ): max_associations = 5 if not amazon_provided_ipv6_cidr_block else 1 for cidr in self.cidr_block_association_set.copy(): if ( self.cidr_block_association_set.get(cidr) .get("cidr_block_state") .get("state") == "disassociated" ): self.cidr_block_association_set.pop(cidr) if ( len(self.get_cidr_block_association_set(amazon_provided_ipv6_cidr_block)) >= max_associations ): raise CidrLimitExceeded(self.id, max_associations) association_id = random_vpc_cidr_association_id() association_set = { "association_id": association_id, "cidr_block_state": {"state": "associated", "StatusMessage": ""}, } association_set["cidr_block"] = ( random_ipv6_cidr() if amazon_provided_ipv6_cidr_block else cidr_block ) self.cidr_block_association_set[association_id] = association_set return association_set def enable_vpc_classic_link(self): # Check if current cidr block doesn't fall within the 10.0.0.0/8 block, excluding 10.0.0.0/16 and 10.1.0.0/16. # Doesn't check any route tables, maybe something for in the future? # See https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/vpc-classiclink.html#classiclink-limitations network_address = ipaddress.ip_network(self.cidr_block).network_address if ( network_address not in ipaddress.ip_network("10.0.0.0/8") or network_address in ipaddress.ip_network("10.0.0.0/16") or network_address in ipaddress.ip_network("10.1.0.0/16") ): self.classic_link_enabled = "true" return self.classic_link_enabled def disable_vpc_classic_link(self): self.classic_link_enabled = "false" return self.classic_link_enabled def enable_vpc_classic_link_dns_support(self): self.classic_link_dns_supported = "true" return self.classic_link_dns_supported def disable_vpc_classic_link_dns_support(self): self.classic_link_dns_supported = "false" return self.classic_link_dns_supported def disassociate_vpc_cidr_block(self, association_id): if self.cidr_block == self.cidr_block_association_set.get( association_id, {} ).get("cidr_block"): raise OperationNotPermitted(association_id) entry = response = self.cidr_block_association_set.get(association_id, {}) if entry: response = json.loads(json.dumps(entry)) response["vpc_id"] = self.id response["cidr_block_state"]["state"] = "disassociating" entry["cidr_block_state"]["state"] = "disassociated" return response def get_cidr_block_association_set(self, ipv6=False): return [ c for c in self.cidr_block_association_set.values() if ("::/" if ipv6 else ".") in c.get("cidr_block") ] class VPCBackend(object): vpc_refs = defaultdict(set) def __init__(self): self.vpcs = {} self.vpc_end_points = {} self.vpc_refs[self.__class__].add(weakref.ref(self)) super(VPCBackend, self).__init__() @classmethod def get_vpc_refs(cls): for inst_ref in cls.vpc_refs[cls]: inst = inst_ref() if inst is not None: yield inst def create_vpc( self, cidr_block, instance_tenancy="default", amazon_provided_ipv6_cidr_block=False, tags=[], ): vpc_id = random_vpc_id() try: vpc_cidr_block = ipaddress.IPv4Network(str(cidr_block), strict=False) except ValueError: raise InvalidCIDRBlockParameterError(cidr_block) if vpc_cidr_block.prefixlen < 16 or vpc_cidr_block.prefixlen > 28: raise InvalidVPCRangeError(cidr_block) vpc = VPC( self, vpc_id, cidr_block, len(self.vpcs) == 0, instance_tenancy, amazon_provided_ipv6_cidr_block, ) for tag in tags: tag_key = tag.get("Key") tag_value = tag.get("Value") vpc.add_tag(tag_key, tag_value) self.vpcs[vpc_id] = vpc # AWS creates a default main route table and security group. self.create_route_table(vpc_id, main=True) # AWS creates a default Network ACL self.create_network_acl(vpc_id, default=True) default = self.get_security_group_from_name("default", vpc_id=vpc_id) if not default: self.create_security_group( "default", "default VPC security group", vpc_id=vpc_id ) return vpc def get_vpc(self, vpc_id): if vpc_id not in self.vpcs: raise InvalidVPCIdError(vpc_id) return self.vpcs.get(vpc_id) # get vpc by vpc id and aws region def get_cross_vpc(self, vpc_id, peer_region): for vpcs in self.get_vpc_refs(): if vpcs.region_name == peer_region: match_vpc = vpcs.get_vpc(vpc_id) return match_vpc def describe_vpcs(self, vpc_ids=None, filters=None): matches = self.vpcs.values() if vpc_ids: matches = [vpc for vpc in matches if vpc.id in vpc_ids] if len(vpc_ids) > len(matches): unknown_ids = set(vpc_ids) - set(matches) raise InvalidVPCIdError(unknown_ids) if filters: matches = generic_filter(filters, matches) return matches def delete_vpc(self, vpc_id): # Delete route table if only main route table remains. route_tables = self.describe_route_tables(filters={"vpc-id": vpc_id}) if len(route_tables) > 1: raise DependencyViolationError( "The vpc {0} has dependencies and cannot be deleted.".format(vpc_id) ) for route_table in route_tables: self.delete_route_table(route_table.id) # Delete default security group if exists. default = self.get_security_group_from_name("default", vpc_id=vpc_id) if default: self.delete_security_group(group_id=default.id) # Now delete VPC. vpc = self.vpcs.pop(vpc_id, None) if not vpc: raise InvalidVPCIdError(vpc_id) if vpc.dhcp_options: vpc.dhcp_options.vpc = None self.delete_dhcp_options_set(vpc.dhcp_options.id) vpc.dhcp_options = None return vpc def describe_vpc_attribute(self, vpc_id, attr_name): vpc = self.get_vpc(vpc_id) if attr_name in ("enable_dns_support", "enable_dns_hostnames"): return getattr(vpc, attr_name) else: raise InvalidParameterValueError(attr_name) def modify_vpc_tenancy(self, vpc_id, tenancy): vpc = self.get_vpc(vpc_id) return vpc.modify_vpc_tenancy(tenancy) def enable_vpc_classic_link(self, vpc_id): vpc = self.get_vpc(vpc_id) return vpc.enable_vpc_classic_link() def disable_vpc_classic_link(self, vpc_id): vpc = self.get_vpc(vpc_id) return vpc.disable_vpc_classic_link() def enable_vpc_classic_link_dns_support(self, vpc_id): vpc = self.get_vpc(vpc_id) return vpc.enable_vpc_classic_link_dns_support() def disable_vpc_classic_link_dns_support(self, vpc_id): vpc = self.get_vpc(vpc_id) return vpc.disable_vpc_classic_link_dns_support() def modify_vpc_attribute(self, vpc_id, attr_name, attr_value): vpc = self.get_vpc(vpc_id) if attr_name in ("enable_dns_support", "enable_dns_hostnames"): setattr(vpc, attr_name, attr_value) else: raise InvalidParameterValueError(attr_name) def disassociate_vpc_cidr_block(self, association_id): for vpc in self.vpcs.values(): response = vpc.disassociate_vpc_cidr_block(association_id) if response: return response else: raise InvalidVpcCidrBlockAssociationIdError(association_id) def associate_vpc_cidr_block( self, vpc_id, cidr_block, amazon_provided_ipv6_cidr_block ): vpc = self.get_vpc(vpc_id) return vpc.associate_vpc_cidr_block(cidr_block, amazon_provided_ipv6_cidr_block) def create_vpc_endpoint( self, vpc_id, service_name, type=None, policy_document=False, route_table_ids=None, subnet_ids=[], network_interface_ids=[], dns_entries=None, client_token=None, security_group_ids=None, tags=None, private_dns_enabled=None, ): vpc_endpoint_id = random_vpc_ep_id() # validates if vpc is present or not. self.get_vpc(vpc_id) service_destination_cidr = None if type and type.lower() == "interface": network_interface_ids = [] for subnet_id in subnet_ids: self.get_subnet(subnet_id) eni = self.create_network_interface(subnet_id, random_private_ip()) network_interface_ids.append(eni.id) dns_entries = create_dns_entries(service_name, vpc_endpoint_id) else: # considering gateway if type is not mentioned. service_destination_cidr = randor_ipv4_cidr() for route_table_id in route_table_ids: self.create_route(route_table_id, service_destination_cidr) if dns_entries: dns_entries = [dns_entries] vpc_end_point = VPCEndPoint( self, vpc_endpoint_id, vpc_id, service_name, type, policy_document, route_table_ids, subnet_ids, network_interface_ids, dns_entries, client_token, security_group_ids, tags, private_dns_enabled, service_destination_cidr, ) self.vpc_end_points[vpc_endpoint_id] = vpc_end_point return vpc_end_point def delete_vpc_endpoints(self, vpce_ids=[]): vpce_ids for vpce_id in vpce_ids: vpc_endpoint = self.vpc_end_points.get(vpce_id, None) if vpc_endpoint: if vpc_endpoint.type.lower() == "interface": for eni_id in vpc_endpoint.network_interface_ids: self.enis.pop(eni_id, None) else: for route_table_id in vpc_endpoint.route_table_ids: self.delete_route( route_table_id, vpc_endpoint.service_destination_cidr ) vpc_endpoint.state = "deleted" return True def describe_vpc_endpoints(self, vpc_end_point_ids, filters=None): vpc_end_points = self.vpc_end_points.values() if vpc_end_point_ids: vpc_end_points = [ vpc_end_point for vpc_end_point in vpc_end_points if vpc_end_point.id in vpc_end_point_ids ] if len(vpc_end_points) != len(vpc_end_point_ids): invalid_id = list( set(vpc_end_point_ids).difference( set([vpc_end_point.id for vpc_end_point in vpc_end_points]) ) )[0] raise InvalidVpcEndPointIdError(invalid_id) return generic_filter(filters, vpc_end_points) def get_vpc_end_point_services(self): vpc_end_point_services = self.vpc_end_points.values() services = [] for value in vpc_end_point_services: services.append(value.service_name) availability_zones = EC2Backend.describe_availability_zones(self) return { "servicesDetails": vpc_end_point_services, "services": services, "availability_zones": availability_zones, } class PeeringConnectionStatus(object): def __init__(self, code="initiating-request", message=""): self.code = code self.message = message def deleted(self): self.code = "deleted" self.message = "Deleted by {deleter ID}" def initiating(self): self.code = "initiating-request" self.message = "Initiating Request to {accepter ID}" def pending(self): self.code = "pending-acceptance" self.message = "Pending Acceptance by {accepter ID}" def accept(self): self.code = "active" self.message = "Active" def reject(self): self.code = "rejected" self.message = "Inactive" class VPCPeeringConnection(TaggedEC2Resource, CloudFormationModel): DEFAULT_OPTIONS = { "AllowEgressFromLocalClassicLinkToRemoteVpc": "false", "AllowEgressFromLocalVpcToRemoteClassicLink": "false", "AllowDnsResolutionFromRemoteVpc": "false", } def __init__(self, backend, vpc_pcx_id, vpc, peer_vpc, tags=None): self.id = vpc_pcx_id self.ec2_backend = backend self.vpc = vpc self.peer_vpc = peer_vpc self.requester_options = self.DEFAULT_OPTIONS.copy() self.accepter_options = self.DEFAULT_OPTIONS.copy() self.add_tags(tags or {}) self._status = PeeringConnectionStatus() @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-vpcpeeringconnection.html return "AWS::EC2::VPCPeeringConnection" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] ec2_backend = ec2_backends[region_name] vpc = ec2_backend.get_vpc(properties["VpcId"]) peer_vpc = ec2_backend.get_vpc(properties["PeerVpcId"]) vpc_pcx = ec2_backend.create_vpc_peering_connection(vpc, peer_vpc) return vpc_pcx @property def physical_resource_id(self): return self.id class VPCPeeringConnectionBackend(object): # for cross region vpc reference vpc_pcx_refs = defaultdict(set) def __init__(self): self.vpc_pcxs = {} self.vpc_pcx_refs[self.__class__].add(weakref.ref(self)) super(VPCPeeringConnectionBackend, self).__init__() @classmethod def get_vpc_pcx_refs(cls): for inst_ref in cls.vpc_pcx_refs[cls]: inst = inst_ref() if inst is not None: yield inst def create_vpc_peering_connection(self, vpc, peer_vpc, tags=None): vpc_pcx_id = random_vpc_peering_connection_id() vpc_pcx = VPCPeeringConnection(self, vpc_pcx_id, vpc, peer_vpc, tags) vpc_pcx._status.pending() self.vpc_pcxs[vpc_pcx_id] = vpc_pcx # insert cross region peering info if vpc.ec2_backend.region_name != peer_vpc.ec2_backend.region_name: for vpc_pcx_cx in peer_vpc.ec2_backend.get_vpc_pcx_refs(): if vpc_pcx_cx.region_name == peer_vpc.ec2_backend.region_name: vpc_pcx_cx.vpc_pcxs[vpc_pcx_id] = vpc_pcx return vpc_pcx def describe_vpc_peering_connections(self, vpc_peering_ids=None): if vpc_peering_ids: return [pcx for pcx in self.vpc_pcxs.values() if pcx.id in vpc_peering_ids] return self.vpc_pcxs.values() def get_vpc_peering_connection(self, vpc_pcx_id): if vpc_pcx_id not in self.vpc_pcxs: raise InvalidVPCPeeringConnectionIdError(vpc_pcx_id) return self.vpc_pcxs.get(vpc_pcx_id) def delete_vpc_peering_connection(self, vpc_pcx_id): deleted = self.get_vpc_peering_connection(vpc_pcx_id) deleted._status.deleted() return deleted def accept_vpc_peering_connection(self, vpc_pcx_id): vpc_pcx = self.get_vpc_peering_connection(vpc_pcx_id) # if cross region need accepter from another region pcx_req_region = vpc_pcx.vpc.ec2_backend.region_name pcx_acp_region = vpc_pcx.peer_vpc.ec2_backend.region_name if pcx_req_region != pcx_acp_region and self.region_name == pcx_req_region: raise OperationNotPermitted2(self.region_name, vpc_pcx.id, pcx_acp_region) if vpc_pcx._status.code != "pending-acceptance": raise InvalidVPCPeeringConnectionStateTransitionError(vpc_pcx.id) vpc_pcx._status.accept() return vpc_pcx def reject_vpc_peering_connection(self, vpc_pcx_id): vpc_pcx = self.get_vpc_peering_connection(vpc_pcx_id) # if cross region need accepter from another region pcx_req_region = vpc_pcx.vpc.ec2_backend.region_name pcx_acp_region = vpc_pcx.peer_vpc.ec2_backend.region_name if pcx_req_region != pcx_acp_region and self.region_name == pcx_req_region: raise OperationNotPermitted3(self.region_name, vpc_pcx.id, pcx_acp_region) if vpc_pcx._status.code != "pending-acceptance": raise InvalidVPCPeeringConnectionStateTransitionError(vpc_pcx.id) vpc_pcx._status.reject() return vpc_pcx def modify_vpc_peering_connection_options( self, vpc_pcx_id, accepter_options=None, requester_options=None ): vpc_pcx = self.get_vpc_peering_connection(vpc_pcx_id) if not vpc_pcx: raise InvalidVPCPeeringConnectionIdError(vpc_pcx_id) # TODO: check if actual vpc has this options enabled if accepter_options: vpc_pcx.accepter_options.update(accepter_options) if requester_options: vpc_pcx.requester_options.update(requester_options) class Subnet(TaggedEC2Resource, CloudFormationModel): def __init__( self, ec2_backend, subnet_id, vpc_id, cidr_block, availability_zone, default_for_az, map_public_ip_on_launch, assign_ipv6_address_on_creation=False, ): self.ec2_backend = ec2_backend self.id = subnet_id self.vpc_id = vpc_id self.cidr_block = cidr_block self.cidr = ipaddress.IPv4Network(str(self.cidr_block), strict=False) self._available_ip_addresses = ( ipaddress.IPv4Network(str(self.cidr_block)).num_addresses - 5 ) self._availability_zone = availability_zone self.default_for_az = default_for_az self.map_public_ip_on_launch = map_public_ip_on_launch self.assign_ipv6_address_on_creation = assign_ipv6_address_on_creation self.ipv6_cidr_block_associations = [] # Theory is we assign ip's as we go (as 16,777,214 usable IPs in a /8) self._subnet_ip_generator = self.cidr.hosts() self.reserved_ips = [ next(self._subnet_ip_generator) for _ in range(0, 3) ] # Reserved by AWS self._unused_ips = set() # if instance is destroyed hold IP here for reuse self._subnet_ips = {} # has IP: instance self.state = "available" @property def owner_id(self): return ACCOUNT_ID @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-subnet.html return "AWS::EC2::Subnet" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] vpc_id = properties["VpcId"] cidr_block = properties["CidrBlock"] availability_zone = properties.get("AvailabilityZone") ec2_backend = ec2_backends[region_name] subnet = ec2_backend.create_subnet( vpc_id=vpc_id, cidr_block=cidr_block, availability_zone=availability_zone ) for tag in properties.get("Tags", []): tag_key = tag["Key"] tag_value = tag["Value"] subnet.add_tag(tag_key, tag_value) return subnet @property def available_ip_addresses(self): enis = [ eni for eni in self.ec2_backend.get_all_network_interfaces() if eni.subnet.id == self.id ] addresses_taken = [ eni.private_ip_address for eni in enis if eni.private_ip_address ] for eni in enis: if eni.private_ip_addresses: addresses_taken.extend(eni.private_ip_addresses) return str(self._available_ip_addresses - len(addresses_taken)) @property def availability_zone(self): return self._availability_zone.name @property def availability_zone_id(self): return self._availability_zone.zone_id @property def physical_resource_id(self): return self.id def get_filter_value(self, filter_name): """ API Version 2014-10-01 defines the following filters for DescribeSubnets: * availabilityZone * available-ip-address-count * cidrBlock * defaultForAz * state * subnet-id * tag:key=value * tag-key * tag-value * vpc-id Taken from: http://docs.aws.amazon.com/AWSEC2/latest/APIReference/API_DescribeSubnets.html """ if filter_name in ("cidr", "cidrBlock", "cidr-block"): return self.cidr_block elif filter_name in ("vpc-id", "vpcId"): return self.vpc_id elif filter_name == "subnet-id": return self.id elif filter_name in ("availabilityZone", "availability-zone"): return self.availability_zone elif filter_name in ("defaultForAz", "default-for-az"): return self.default_for_az elif filter_name == "state": return self.state else: return super(Subnet, self).get_filter_value(filter_name, "DescribeSubnets") def get_cfn_attribute(self, attribute_name): from moto.cloudformation.exceptions import UnformattedGetAttTemplateException if attribute_name == "AvailabilityZone": raise NotImplementedError('"Fn::GetAtt" : [ "{0}" , "AvailabilityZone" ]"') raise UnformattedGetAttTemplateException() def get_available_subnet_ip(self, instance): try: new_ip = self._unused_ips.pop() except KeyError: new_ip = next(self._subnet_ip_generator) # Skips any IP's if they've been manually specified while str(new_ip) in self._subnet_ips: new_ip = next(self._subnet_ip_generator) if new_ip == self.cidr.broadcast_address: raise StopIteration() # Broadcast address cant be used obviously # TODO StopIteration will be raised if no ip's available, not sure how aws handles this. new_ip = str(new_ip) self._subnet_ips[new_ip] = instance return new_ip def request_ip(self, ip, instance): if ipaddress.ip_address(ip) not in self.cidr: raise Exception( "IP does not fall in the subnet CIDR of {0}".format(self.cidr) ) if ip in self._subnet_ips: raise Exception("IP already in use") try: self._unused_ips.remove(ip) except KeyError: pass self._subnet_ips[ip] = instance return ip def del_subnet_ip(self, ip): try: del self._subnet_ips[ip] self._unused_ips.add(ip) except KeyError: pass # Unknown IP class SubnetBackend(object): def __init__(self): # maps availability zone to dict of (subnet_id, subnet) self.subnets = defaultdict(dict) super(SubnetBackend, self).__init__() def get_subnet(self, subnet_id): for subnets in self.subnets.values(): if subnet_id in subnets: return subnets[subnet_id] raise InvalidSubnetIdError(subnet_id) def create_subnet( self, vpc_id, cidr_block, availability_zone=None, availability_zone_id=None, context=None, tags=[], ): subnet_id = random_subnet_id() vpc = self.get_vpc( vpc_id ) # Validate VPC exists and the supplied CIDR block is a subnet of the VPC's vpc_cidr_blocks = [ ipaddress.IPv4Network( str(cidr_block_association["cidr_block"]), strict=False ) for cidr_block_association in vpc.get_cidr_block_association_set() ] try: subnet_cidr_block = ipaddress.IPv4Network(str(cidr_block), strict=False) except ValueError: raise InvalidCIDRBlockParameterError(cidr_block) subnet_in_vpc_cidr_range = False for vpc_cidr_block in vpc_cidr_blocks: if ( vpc_cidr_block.network_address <= subnet_cidr_block.network_address and vpc_cidr_block.broadcast_address >= subnet_cidr_block.broadcast_address ): subnet_in_vpc_cidr_range = True break if not subnet_in_vpc_cidr_range: raise InvalidSubnetRangeError(cidr_block) for subnet in self.get_all_subnets(filters={"vpc-id": vpc_id}): if subnet.cidr.overlaps(subnet_cidr_block): raise InvalidSubnetConflictError(cidr_block) # if this is the first subnet for an availability zone, # consider it the default default_for_az = str(availability_zone not in self.subnets).lower() map_public_ip_on_launch = default_for_az if availability_zone is None and not availability_zone_id: availability_zone = "us-east-1a" try: if availability_zone: availability_zone_data = next( zone for zones in RegionsAndZonesBackend.zones.values() for zone in zones if zone.name == availability_zone ) elif availability_zone_id: availability_zone_data = next( zone for zones in RegionsAndZonesBackend.zones.values() for zone in zones if zone.zone_id == availability_zone_id ) except StopIteration: raise InvalidAvailabilityZoneError( availability_zone, ", ".join( [ zone.name for zones in RegionsAndZonesBackend.zones.values() for zone in zones ] ), ) subnet = Subnet( self, subnet_id, vpc_id, cidr_block, availability_zone_data, default_for_az, map_public_ip_on_launch, assign_ipv6_address_on_creation=False, ) for tag in tags: tag_key = tag.get("Key") tag_value = tag.get("Value") subnet.add_tag(tag_key, tag_value) # AWS associates a new subnet with the default Network ACL self.associate_default_network_acl_with_subnet(subnet_id, vpc_id) self.subnets[availability_zone][subnet_id] = subnet return subnet def get_all_subnets(self, subnet_ids=None, filters=None): # Extract a list of all subnets matches = itertools.chain(*[x.values() for x in self.subnets.values()]) if subnet_ids: matches = [sn for sn in matches if sn.id in subnet_ids] if len(subnet_ids) > len(matches): unknown_ids = set(subnet_ids) - set(matches) raise InvalidSubnetIdError(list(unknown_ids)[0]) if filters: matches = generic_filter(filters, matches) return matches def delete_subnet(self, subnet_id): for subnets in self.subnets.values(): if subnet_id in subnets: return subnets.pop(subnet_id, None) raise InvalidSubnetIdError(subnet_id) def modify_subnet_attribute(self, subnet_id, attr_name, attr_value): subnet = self.get_subnet(subnet_id) if attr_name in ("map_public_ip_on_launch", "assign_ipv6_address_on_creation"): setattr(subnet, attr_name, attr_value) else: raise InvalidParameterValueError(attr_name) class FlowLogs(TaggedEC2Resource, CloudFormationModel): def __init__( self, ec2_backend, flow_log_id, resource_id, traffic_type, log_destination, log_group_name, deliver_logs_permission_arn, max_aggregation_interval, log_destination_type, log_format, deliver_logs_status="SUCCESS", deliver_logs_error_message=None, ): self.ec2_backend = ec2_backend self.id = flow_log_id self.resource_id = resource_id self.traffic_type = traffic_type self.log_destination = log_destination self.log_group_name = log_group_name self.deliver_logs_permission_arn = deliver_logs_permission_arn self.deliver_logs_status = deliver_logs_status self.deliver_logs_error_message = deliver_logs_error_message self.max_aggregation_interval = max_aggregation_interval self.log_destination_type = log_destination_type self.log_format = log_format self.created_at = utc_date_and_time() @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-flowlog.html return "AWS::EC2::FlowLog" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] resource_type = properties.get("ResourceType") resource_id = [properties.get("ResourceId")] traffic_type = properties.get("TrafficType") deliver_logs_permission_arn = properties.get("DeliverLogsPermissionArn") log_destination_type = properties.get("LogDestinationType") log_destination = properties.get("LogDestination") log_group_name = properties.get("LogGroupName") log_format = properties.get("LogFormat") max_aggregation_interval = properties.get("MaxAggregationInterval") ec2_backend = ec2_backends[region_name] flow_log, _ = ec2_backend.create_flow_logs( resource_type, resource_id, traffic_type, deliver_logs_permission_arn, log_destination_type, log_destination, log_group_name, log_format, max_aggregation_interval, ) for tag in properties.get("Tags", []): tag_key = tag["Key"] tag_value = tag["Value"] flow_log[0].add_tag(tag_key, tag_value) return flow_log[0] @property def physical_resource_id(self): return self.id def get_filter_value(self, filter_name): """ API Version 2016-11-15 defines the following filters for DescribeFlowLogs: * deliver-log-status * log-destination-type * flow-log-id * log-group-name * resource-id * traffic-type * tag:key=value * tag-key Taken from: https://docs.aws.amazon.com/AWSEC2/latest/APIReference/API_DescribeFlowLogs.html """ if filter_name == "resource-id": return self.resource_id elif filter_name == "traffic-type": return self.traffic_type elif filter_name == "log-destination-type": return self.log_destination_type elif filter_name == "flow-log-id": return self.id elif filter_name == "log-group-name": return self.log_group_name elif filter_name == "deliver-log-status": return "SUCCESS" else: return super(FlowLogs, self).get_filter_value( filter_name, "DescribeFlowLogs" ) class FlowLogsBackend(object): def __init__(self): self.flow_logs = defaultdict(dict) super(FlowLogsBackend, self).__init__() def _validate_request( self, log_group_name, log_destination, log_destination_type, max_aggregation_interval, deliver_logs_permission_arn, ): if log_group_name is None and log_destination is None: raise InvalidDependantParameterError( "LogDestination", "LogGroupName", "not provided", ) if log_destination_type == "s3": if log_group_name is not None: raise InvalidDependantParameterTypeError( "LogDestination", "cloud-watch-logs", "LogGroupName", ) elif log_destination_type == "cloud-watch-logs": if deliver_logs_permission_arn is None: raise InvalidDependantParameterError( "DeliverLogsPermissionArn", "LogDestinationType", "cloud-watch-logs", ) if max_aggregation_interval not in ["60", "600"]: raise InvalidAggregationIntervalParameterError( "Flow Log Max Aggregation Interval" ) def create_flow_logs( self, resource_type, resource_ids, traffic_type, deliver_logs_permission_arn, log_destination_type, log_destination, log_group_name, log_format, max_aggregation_interval, ): # Guess it's best to put it here due to possible # lack of them in the CloudFormation template max_aggregation_interval = ( "600" if max_aggregation_interval is None else max_aggregation_interval ) log_destination_type = ( "cloud-watch-logs" if log_destination_type is None else log_destination_type ) log_format = ( "${version} ${account-id} ${interface-id} ${srcaddr} ${dstaddr} ${srcport} ${dstport} ${protocol} ${packets} ${bytes} ${start} ${end} ${action} ${log-status}" if log_format is None else log_format ) # Validate the requests paremeters self._validate_request( log_group_name, log_destination, log_destination_type, max_aggregation_interval, deliver_logs_permission_arn, ) flow_logs_set = [] unsuccessful = [] for resource_id in resource_ids: deliver_logs_status = "SUCCESS" deliver_logs_error_message = None flow_log_id = random_flow_log_id() if resource_type == "VPC": # Validate VPCs exist self.get_vpc(resource_id) elif resource_type == "Subnet": # Validate Subnets exist self.get_subnet(resource_id) elif resource_type == "NetworkInterface": # Validate NetworkInterfaces exist self.get_network_interface(resource_id) if log_destination_type == "s3": from moto.s3.models import s3_backend from moto.s3.exceptions import MissingBucket arn = log_destination.split(":", 5)[5] try: s3_backend.get_bucket(arn) except MissingBucket: # Instead of creating FlowLog report # the unsuccessful status for the # given resource_id unsuccessful.append( ( resource_id, "400", "LogDestination: {0} does not exist.".format(arn), ) ) continue elif log_destination_type == "cloud-watch-logs": from moto.logs.models import logs_backends from moto.logs.exceptions import ResourceNotFoundException # API allows to create a FlowLog with a # non-existing LogGroup. It however later # on reports the FAILED delivery status. try: # Need something easy to check the group exists. # The list_tags_log_group seems to do the trick. logs_backends[self.region_name].list_tags_log_group(log_group_name) except ResourceNotFoundException: deliver_logs_status = "FAILED" deliver_logs_error_message = "Access error" all_flow_logs = self.describe_flow_logs() if any( fl.resource_id == resource_id and ( fl.log_group_name == log_group_name or fl.log_destination == log_destination ) for fl in all_flow_logs ): raise FlowLogAlreadyExists() flow_logs = FlowLogs( self, flow_log_id, resource_id, traffic_type, log_destination, log_group_name, deliver_logs_permission_arn, max_aggregation_interval, log_destination_type, log_format, deliver_logs_status, deliver_logs_error_message, ) self.flow_logs[flow_log_id] = flow_logs flow_logs_set.append(flow_logs) return flow_logs_set, unsuccessful def describe_flow_logs(self, flow_log_ids=None, filters=None): matches = itertools.chain([i for i in self.flow_logs.values()]) if flow_log_ids: matches = [flow_log for flow_log in matches if flow_log.id in flow_log_ids] if filters: matches = generic_filter(filters, matches) return matches def delete_flow_logs(self, flow_log_ids): non_existing = [] for flow_log in flow_log_ids: if flow_log in self.flow_logs: self.flow_logs.pop(flow_log, None) else: non_existing.append(flow_log) if non_existing: raise InvalidFlowLogIdError( len(flow_log_ids), " ".join(x for x in flow_log_ids), ) return True class SubnetRouteTableAssociation(CloudFormationModel): def __init__(self, route_table_id, subnet_id): self.route_table_id = route_table_id self.subnet_id = subnet_id @property def physical_resource_id(self): return self.route_table_id @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-subnetroutetableassociation.html return "AWS::EC2::SubnetRouteTableAssociation" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] route_table_id = properties["RouteTableId"] subnet_id = properties["SubnetId"] ec2_backend = ec2_backends[region_name] subnet_association = ec2_backend.create_subnet_association( route_table_id=route_table_id, subnet_id=subnet_id ) return subnet_association class SubnetRouteTableAssociationBackend(object): def __init__(self): self.subnet_associations = {} super(SubnetRouteTableAssociationBackend, self).__init__() def create_subnet_association(self, route_table_id, subnet_id): subnet_association = SubnetRouteTableAssociation(route_table_id, subnet_id) self.subnet_associations[ "{0}:{1}".format(route_table_id, subnet_id) ] = subnet_association return subnet_association class RouteTable(TaggedEC2Resource, CloudFormationModel): def __init__(self, ec2_backend, route_table_id, vpc_id, main=False): self.ec2_backend = ec2_backend self.id = route_table_id self.vpc_id = vpc_id self.main = main self.associations = {} self.routes = {} @property def owner_id(self): return ACCOUNT_ID @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-routetable.html return "AWS::EC2::RouteTable" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] vpc_id = properties["VpcId"] ec2_backend = ec2_backends[region_name] route_table = ec2_backend.create_route_table(vpc_id=vpc_id) return route_table @property def physical_resource_id(self): return self.id def get_filter_value(self, filter_name): if filter_name == "association.main": # Note: Boto only supports 'true'. # https://github.com/boto/boto/issues/1742 if self.main: return "true" else: return "false" elif filter_name == "route-table-id": return self.id elif filter_name == "vpc-id": return self.vpc_id elif filter_name == "association.route-table-id": return self.id elif filter_name == "association.route-table-association-id": return self.associations.keys() elif filter_name == "association.subnet-id": return self.associations.values() else: return super(RouteTable, self).get_filter_value( filter_name, "DescribeRouteTables" ) class RouteTableBackend(object): def __init__(self): self.route_tables = {} super(RouteTableBackend, self).__init__() def create_route_table(self, vpc_id, tags=[], main=False): route_table_id = random_route_table_id() vpc = self.get_vpc(vpc_id) # Validate VPC exists route_table = RouteTable(self, route_table_id, vpc_id, main=main) for tag in tags: route_table.add_tag(tag.get("Key"), tag.get("Value")) self.route_tables[route_table_id] = route_table # AWS creates a default local route. self.create_route(route_table_id, vpc.cidr_block, local=True) # if ipV6 support is enabled ipv6_cidrs = vpc.get_cidr_block_association_set(ipv6=True) for ipv6_cidr in ipv6_cidrs: self.create_route( route_table_id, destination_cidr_block=None, local=True, destination_ipv6_cidr_block=ipv6_cidr, ) return route_table def get_route_table(self, route_table_id): route_table = self.route_tables.get(route_table_id, None) if not route_table: raise InvalidRouteTableIdError(route_table_id) return route_table def describe_route_tables(self, route_table_ids=None, filters=None): route_tables = self.route_tables.values() if route_table_ids: route_tables = [ route_table for route_table in route_tables if route_table.id in route_table_ids ] if len(route_tables) != len(route_table_ids): invalid_id = list( set(route_table_ids).difference( set([route_table.id for route_table in route_tables]) ) )[0] raise InvalidRouteTableIdError(invalid_id) return generic_filter(filters, route_tables) def delete_route_table(self, route_table_id): route_table = self.get_route_table(route_table_id) if route_table.associations: raise DependencyViolationError( "The routeTable '{0}' has dependencies and cannot be deleted.".format( route_table_id ) ) self.route_tables.pop(route_table_id) return True def associate_route_table(self, route_table_id, gateway_id=None, subnet_id=None): # Idempotent if association already exists. route_tables_by_subnet = self.describe_route_tables( filters={"association.subnet-id": [subnet_id]} ) if route_tables_by_subnet: for association_id, check_subnet_id in route_tables_by_subnet[ 0 ].associations.items(): if subnet_id == check_subnet_id: return association_id # Association does not yet exist, so create it. route_table = self.get_route_table(route_table_id) if gateway_id is None: self.get_subnet(subnet_id) # Validate subnet exists association_id = random_subnet_association_id() route_table.associations[association_id] = subnet_id return association_id if subnet_id is None: association_id = random_subnet_association_id() route_table.associations[association_id] = gateway_id return association_id def disassociate_route_table(self, association_id): for route_table in self.route_tables.values(): if association_id in route_table.associations: return route_table.associations.pop(association_id, None) raise InvalidAssociationIdError(association_id) def replace_route_table_association(self, association_id, route_table_id): # Idempotent if association already exists. new_route_table = self.get_route_table(route_table_id) if association_id in new_route_table.associations: return association_id # Find route table which currently has the association, error if none. route_tables_by_association_id = self.describe_route_tables( filters={"association.route-table-association-id": [association_id]} ) if not route_tables_by_association_id: raise InvalidAssociationIdError(association_id) # Remove existing association, create new one. previous_route_table = route_tables_by_association_id[0] subnet_id = previous_route_table.associations.pop(association_id, None) return self.associate_route_table(route_table_id, subnet_id) class Route(CloudFormationModel): def __init__( self, route_table, destination_cidr_block, destination_ipv6_cidr_block, local=False, gateway=None, instance=None, nat_gateway=None, egress_only_igw=None, transit_gateway=None, interface=None, vpc_pcx=None, ): self.id = generate_route_id( route_table.id, destination_cidr_block, destination_ipv6_cidr_block ) self.route_table = route_table self.destination_cidr_block = destination_cidr_block self.destination_ipv6_cidr_block = destination_ipv6_cidr_block self.local = local self.gateway = gateway self.instance = instance self.nat_gateway = nat_gateway self.egress_only_igw = egress_only_igw self.transit_gateway = transit_gateway self.interface = interface self.vpc_pcx = vpc_pcx @property def physical_resource_id(self): return self.id @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-route.html return "AWS::EC2::Route" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] gateway_id = properties.get("GatewayId") instance_id = properties.get("InstanceId") interface_id = properties.get("NetworkInterfaceId") nat_gateway_id = properties.get("NatGatewayId") egress_only_igw_id = properties.get("EgressOnlyInternetGatewayId") transit_gateway_id = properties.get("TransitGatewayId") pcx_id = properties.get("VpcPeeringConnectionId") route_table_id = properties["RouteTableId"] ec2_backend = ec2_backends[region_name] route_table = ec2_backend.create_route( route_table_id=route_table_id, destination_cidr_block=properties.get("DestinationCidrBlock"), gateway_id=gateway_id, instance_id=instance_id, nat_gateway_id=nat_gateway_id, egress_only_igw_id=egress_only_igw_id, transit_gateway_id=transit_gateway_id, interface_id=interface_id, vpc_peering_connection_id=pcx_id, ) return route_table class VPCEndPoint(TaggedEC2Resource): def __init__( self, ec2_backend, id, vpc_id, service_name, type=None, policy_document=False, route_table_ids=None, subnet_ids=None, network_interface_ids=None, dns_entries=None, client_token=None, security_group_ids=None, tags=None, private_dns_enabled=None, service_destination_cidr=None, ): self.ec2_backend = ec2_backend self.id = id self.vpc_id = vpc_id self.service_name = service_name self.type = type self.state = "available" self.policy_document = policy_document self.route_table_ids = route_table_ids self.network_interface_ids = network_interface_ids self.subnet_ids = subnet_ids self.client_token = client_token self.security_group_ids = security_group_ids self.private_dns_enabled = private_dns_enabled # self.created_at = utc_date_and_time() self.dns_entries = dns_entries self.add_tags(tags or {}) self.service_destination_cidr = service_destination_cidr @property def owner_id(self): return ACCOUNT_ID @property def created_at(self): return utc_date_and_time() class ManagedPrefixList(TaggedEC2Resource): def __init__( self, backend, address_family=None, entry=[], max_entries=None, prefix_list_name=None, region=None, tags={}, owner_id=None, ): self.ec2_backend = backend self.address_family = address_family self.max_entries = max_entries self.id = random_managed_prefix_list_id() self.prefix_list_name = prefix_list_name self.state = "create-complete" self.state_message = "create complete" self.add_tags(tags or {}) self.version = 1 self.entries = {self.version: entry} if entry else {} self.resource_owner_id = owner_id if owner_id else None self.prefix_list_arn = self.arn(region, self.owner_id) self.delete_counter = 1 def arn(self, region, owner_id): return "arn:aws:ec2:{region}:{owner_id}:prefix-list/{resource_id}".format( region=region, resource_id=self.id, owner_id=owner_id ) @property def owner_id(self): return ACCOUNT_ID if not self.resource_owner_id else self.resource_owner_id class ManagedPrefixListBackend(object): def __init__(self): self.managed_prefix_lists = {} self.create_default_pls() super(ManagedPrefixListBackend, self).__init__() def create_managed_prefix_list( self, address_family=None, entry=[], max_entries=None, prefix_list_name=None, tags={}, owner_id=None, ): managed_prefix_list = ManagedPrefixList( self, address_family=address_family, entry=entry, max_entries=max_entries, prefix_list_name=prefix_list_name, region=self.region_name, tags=tags, owner_id=owner_id, ) self.managed_prefix_lists[managed_prefix_list.id] = managed_prefix_list return managed_prefix_list def describe_managed_prefix_lists(self, prefix_list_ids=None, filters=None): managed_prefix_lists = list(self.managed_prefix_lists.values()) attr_pairs = ( ("owner-id", "owner_id"), ("prefix-list-id", "id"), ("prefix-list-name", "prefix_list_name"), ) if prefix_list_ids: managed_prefix_lists = [ managed_prefix_list for managed_prefix_list in managed_prefix_lists if managed_prefix_list.id in prefix_list_ids ] result = managed_prefix_lists if filters: result = filter_resources(managed_prefix_lists, filters, attr_pairs) for item in result.copy(): if not item.delete_counter: self.managed_prefix_lists.pop(item.id, None) result.remove(item) if item.state == "delete-complete": item.delete_counter -= 1 return result def get_managed_prefix_list_entries(self, prefix_list_id=None): managed_prefix_list = self.managed_prefix_lists.get(prefix_list_id) return managed_prefix_list def delete_managed_prefix_list(self, prefix_list_id): managed_prefix_list = self.managed_prefix_lists.get(prefix_list_id) managed_prefix_list.state = "delete-complete" return managed_prefix_list def modify_managed_prefix_list( self, add_entry=None, prefix_list_id=None, current_version=None, prefix_list_name=None, remove_entry=None, ): managed_pl = self.managed_prefix_lists.get(prefix_list_id) managed_pl.prefix_list_name = prefix_list_name if remove_entry or add_entry: latest_version = managed_pl.entries.get(managed_pl.version) entries = ( managed_pl.entries.get(current_version, latest_version).copy() if managed_pl.entries else [] ) for item in entries.copy(): if item.get("Cidr", "") in remove_entry: entries.remove(item) for item in add_entry: if item not in entries.copy(): entries.append(item) managed_pl.version += 1 managed_pl.entries[managed_pl.version] = entries managed_pl.state = "modify-complete" return managed_pl def create_default_pls(self): entry = [ {"Cidr": "52.216.0.0/15", "Description": "default"}, {"Cidr": "3.5.0.0/19", "Description": "default"}, {"Cidr": "54.231.0.0/16", "Description": "default"}, ] managed_prefix_list = self.create_managed_prefix_list( address_family="IPv4", entry=entry, prefix_list_name="com.amazonaws.{}.s3".format(self.region_name), owner_id="aws", ) managed_prefix_list.version = None managed_prefix_list.max_entries = None self.managed_prefix_lists[managed_prefix_list.id] = managed_prefix_list entry = [ {"Cidr": "3.218.182.0/24", "Description": "default"}, {"Cidr": "3.218.180.0/23", "Description": "default"}, {"Cidr": "52.94.0.0/22", "Description": "default"}, {"Cidr": "52.119.224.0/20", "Description": "default"}, ] managed_prefix_list = self.create_managed_prefix_list( address_family="IPv4", entry=entry, prefix_list_name="com.amazonaws.{}.dynamodb".format(self.region_name), owner_id="aws", ) managed_prefix_list.version = None managed_prefix_list.max_entries = None self.managed_prefix_lists[managed_prefix_list.id] = managed_prefix_list class RouteBackend(object): def __init__(self): super(RouteBackend, self).__init__() def create_route( self, route_table_id, destination_cidr_block, destination_ipv6_cidr_block=None, local=False, gateway_id=None, instance_id=None, nat_gateway_id=None, egress_only_igw_id=None, transit_gateway_id=None, interface_id=None, vpc_peering_connection_id=None, ): gateway = None nat_gateway = None transit_gateway = None egress_only_igw = None route_table = self.get_route_table(route_table_id) if interface_id: # for validating interface Id whether it is valid or not. self.get_network_interface(interface_id) else: if gateway_id: if EC2_RESOURCE_TO_PREFIX["vpn-gateway"] in gateway_id: gateway = self.get_vpn_gateway(gateway_id) elif EC2_RESOURCE_TO_PREFIX["internet-gateway"] in gateway_id: gateway = self.get_internet_gateway(gateway_id) try: if destination_cidr_block: ipaddress.IPv4Network(str(destination_cidr_block), strict=False) except ValueError: raise InvalidDestinationCIDRBlockParameterError(destination_cidr_block) if nat_gateway_id is not None: nat_gateway = self.nat_gateways.get(nat_gateway_id) if egress_only_igw_id is not None: egress_only_igw = self.get_egress_only_igw(egress_only_igw_id) if transit_gateway_id is not None: transit_gateway = self.transit_gateways.get(transit_gateway_id) route = Route( route_table, destination_cidr_block, destination_ipv6_cidr_block, local=local, gateway=gateway, instance=self.get_instance(instance_id) if instance_id else None, nat_gateway=nat_gateway, egress_only_igw=egress_only_igw, transit_gateway=transit_gateway, interface=None, vpc_pcx=self.get_vpc_peering_connection(vpc_peering_connection_id) if vpc_peering_connection_id else None, ) route_table.routes[route.id] = route return route def replace_route( self, route_table_id, destination_cidr_block, gateway_id=None, instance_id=None, interface_id=None, vpc_peering_connection_id=None, ): route_table = self.get_route_table(route_table_id) route_id = generate_route_id(route_table.id, destination_cidr_block) route = route_table.routes[route_id] if interface_id: self.raise_not_implemented_error("ReplaceRoute to NetworkInterfaceId") route.gateway = None if gateway_id: if EC2_RESOURCE_TO_PREFIX["vpn-gateway"] in gateway_id: route.gateway = self.get_vpn_gateway(gateway_id) elif EC2_RESOURCE_TO_PREFIX["internet-gateway"] in gateway_id: route.gateway = self.get_internet_gateway(gateway_id) route.instance = self.get_instance(instance_id) if instance_id else None route.interface = None route.vpc_pcx = ( self.get_vpc_peering_connection(vpc_peering_connection_id) if vpc_peering_connection_id else None ) route_table.routes[route.id] = route return route def get_route(self, route_id): route_table_id, destination_cidr_block = split_route_id(route_id) route_table = self.get_route_table(route_table_id) return route_table.get(route_id) def delete_route( self, route_table_id, destination_cidr_block, destination_ipv6_cidr_block=None ): cidr = destination_cidr_block route_table = self.get_route_table(route_table_id) if destination_ipv6_cidr_block: cidr = destination_ipv6_cidr_block route_id = generate_route_id(route_table_id, cidr) deleted = route_table.routes.pop(route_id, None) if not deleted: raise InvalidRouteError(route_table_id, cidr) return deleted class InternetGateway(TaggedEC2Resource, CloudFormationModel): def __init__(self, ec2_backend): self.ec2_backend = ec2_backend self.id = random_internet_gateway_id() self.vpc = None @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-internetgateway.html return "AWS::EC2::InternetGateway" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): ec2_backend = ec2_backends[region_name] return ec2_backend.create_internet_gateway() @property def physical_resource_id(self): return self.id @property def attachment_state(self): if self.vpc: return "available" else: return "detached" class InternetGatewayBackend(object): def __init__(self): self.internet_gateways = {} super(InternetGatewayBackend, self).__init__() def create_internet_gateway(self, tags=[]): igw = InternetGateway(self) for tag in tags: igw.add_tag(tag.get("Key"), tag.get("Value")) self.internet_gateways[igw.id] = igw return igw def describe_internet_gateways(self, internet_gateway_ids=None, filters=None): igws = [] if internet_gateway_ids is None: igws = self.internet_gateways.values() else: for igw_id in internet_gateway_ids: if igw_id in self.internet_gateways: igws.append(self.internet_gateways[igw_id]) else: raise InvalidInternetGatewayIdError(igw_id) if filters is not None: igws = filter_internet_gateways(igws, filters) return igws def delete_internet_gateway(self, internet_gateway_id): igw = self.get_internet_gateway(internet_gateway_id) if igw.vpc: raise DependencyViolationError( "{0} is being utilized by {1}".format(internet_gateway_id, igw.vpc.id) ) self.internet_gateways.pop(internet_gateway_id) return True def detach_internet_gateway(self, internet_gateway_id, vpc_id): igw = self.get_internet_gateway(internet_gateway_id) if not igw.vpc or igw.vpc.id != vpc_id: raise GatewayNotAttachedError(internet_gateway_id, vpc_id) igw.vpc = None return True def attach_internet_gateway(self, internet_gateway_id, vpc_id): igw = self.get_internet_gateway(internet_gateway_id) if igw.vpc: raise ResourceAlreadyAssociatedError(internet_gateway_id) vpc = self.get_vpc(vpc_id) igw.vpc = vpc return True def get_internet_gateway(self, internet_gateway_id): igw_ids = [internet_gateway_id] return self.describe_internet_gateways(internet_gateway_ids=igw_ids)[0] class EgressOnlyInternetGateway(TaggedEC2Resource): def __init__(self, ec2_backend, vpc_id, tags=None): self.id = random_egress_only_internet_gateway_id() self.ec2_backend = ec2_backend self.vpc_id = vpc_id self.state = "attached" self.add_tags(tags or {}) @property def physical_resource_id(self): return self.id class EgressOnlyInternetGatewayBackend(object): def __init__(self): self.egress_only_internet_gateway_backend = {} super(EgressOnlyInternetGatewayBackend, self).__init__() def create_egress_only_internet_gateway(self, vpc_id, tags=None): vpc = self.get_vpc(vpc_id) if not vpc: raise InvalidVPCIdError(vpc_id) egress_only_igw = EgressOnlyInternetGateway(self, vpc_id, tags) self.egress_only_internet_gateway_backend[egress_only_igw.id] = egress_only_igw return egress_only_igw def describe_egress_only_internet_gateways(self, ids=None, filters=None): # TODO: support filtering based on tag egress_only_igws = list(self.egress_only_internet_gateway_backend.values()) if ids: egress_only_igws = [ egress_only_igw for egress_only_igw in egress_only_igws if egress_only_igw.id in ids ] return egress_only_igws def delete_egress_only_internet_gateway(self, id): egress_only_igw = self.egress_only_internet_gateway_backend.get(id) if not egress_only_igw: raise InvalidGatewayIDError(id) if egress_only_igw: self.egress_only_internet_gateway_backend.pop(id) def get_egress_only_igw(self, id): egress_only_igw = self.egress_only_internet_gateway_backend.get(id, None) if not egress_only_igw: raise InvalidGatewayIDError(id) return egress_only_igw class VPCGatewayAttachment(CloudFormationModel): def __init__(self, gateway_id, vpc_id): self.gateway_id = gateway_id self.vpc_id = vpc_id @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-vpcgatewayattachment.html return "AWS::EC2::VPCGatewayAttachment" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"] ec2_backend = ec2_backends[region_name] attachment = ec2_backend.create_vpc_gateway_attachment( gateway_id=properties["InternetGatewayId"], vpc_id=properties["VpcId"] ) ec2_backend.attach_internet_gateway( properties["InternetGatewayId"], properties["VpcId"] ) return attachment @property def physical_resource_id(self): return self.vpc_id class VPCGatewayAttachmentBackend(object): def __init__(self): self.gateway_attachments = {} super(VPCGatewayAttachmentBackend, self).__init__() def create_vpc_gateway_attachment(self, vpc_id, gateway_id): attachment = VPCGatewayAttachment(vpc_id, gateway_id) self.gateway_attachments[gateway_id] = attachment return attachment class SpotInstanceRequest(BotoSpotRequest, TaggedEC2Resource): def __init__( self, ec2_backend, spot_request_id, price, image_id, type, valid_from, valid_until, launch_group, availability_zone_group, key_name, security_groups, user_data, instance_type, placement, kernel_id, ramdisk_id, monitoring_enabled, subnet_id, tags, spot_fleet_id, **kwargs ): super(SpotInstanceRequest, self).__init__(**kwargs) ls = LaunchSpecification() self.ec2_backend = ec2_backend self.launch_specification = ls self.id = spot_request_id self.state = "open" self.price = price self.type = type self.valid_from = valid_from self.valid_until = valid_until self.launch_group = launch_group self.availability_zone_group = availability_zone_group self.user_data = user_data # NOT ls.kernel = kernel_id ls.ramdisk = ramdisk_id ls.image_id = image_id ls.key_name = key_name ls.instance_type = instance_type ls.placement = placement ls.monitored = monitoring_enabled ls.subnet_id = subnet_id self.spot_fleet_id = spot_fleet_id self.tags = tags if security_groups: for group_name in security_groups: group = self.ec2_backend.get_security_group_from_name(group_name) if group: ls.groups.append(group) else: # If not security groups, add the default default_group = self.ec2_backend.get_security_group_from_name("default") ls.groups.append(default_group) self.instance = self.launch_instance() def get_filter_value(self, filter_name): if filter_name == "state": return self.state elif filter_name == "spot-instance-request-id": return self.id else: return super(SpotInstanceRequest, self).get_filter_value( filter_name, "DescribeSpotInstanceRequests" ) def launch_instance(self): reservation = self.ec2_backend.add_instances( image_id=self.launch_specification.image_id, count=1, user_data=self.user_data, instance_type=self.launch_specification.instance_type, subnet_id=self.launch_specification.subnet_id, key_name=self.launch_specification.key_name, security_group_names=[], security_group_ids=self.launch_specification.groups, spot_fleet_id=self.spot_fleet_id, tags=self.tags, ) instance = reservation.instances[0] return instance class SpotRequestBackend(object, metaclass=Model): def __init__(self): self.spot_instance_requests = {} super(SpotRequestBackend, self).__init__() def request_spot_instances( self, price, image_id, count, type, valid_from, valid_until, launch_group, availability_zone_group, key_name, security_groups, user_data, instance_type, placement, kernel_id, ramdisk_id, monitoring_enabled, subnet_id, tags=None, spot_fleet_id=None, ): requests = [] tags = tags or {} for _ in range(count): spot_request_id = random_spot_request_id() request = SpotInstanceRequest( self, spot_request_id, price, image_id, type, valid_from, valid_until, launch_group, availability_zone_group, key_name, security_groups, user_data, instance_type, placement, kernel_id, ramdisk_id, monitoring_enabled, subnet_id, tags, spot_fleet_id, ) self.spot_instance_requests[spot_request_id] = request requests.append(request) return requests @Model.prop("SpotInstanceRequest") def describe_spot_instance_requests(self, filters=None): requests = self.spot_instance_requests.values() return generic_filter(filters, requests) def cancel_spot_instance_requests(self, request_ids): requests = [] for request_id in request_ids: requests.append(self.spot_instance_requests.pop(request_id)) return requests class SpotFleetLaunchSpec(object): def __init__( self, ebs_optimized, group_set, iam_instance_profile, image_id, instance_type, key_name, monitoring, spot_price, subnet_id, tag_specifications, user_data, weighted_capacity, ): self.ebs_optimized = ebs_optimized self.group_set = group_set self.iam_instance_profile = iam_instance_profile self.image_id = image_id self.instance_type = instance_type self.key_name = key_name self.monitoring = monitoring self.spot_price = spot_price self.subnet_id = subnet_id self.tag_specifications = tag_specifications self.user_data = user_data self.weighted_capacity = float(weighted_capacity) class SpotFleetRequest(TaggedEC2Resource, CloudFormationModel): def __init__( self, ec2_backend, spot_fleet_request_id, spot_price, target_capacity, iam_fleet_role, allocation_strategy, launch_specs, ): self.ec2_backend = ec2_backend self.id = spot_fleet_request_id self.spot_price = spot_price self.target_capacity = int(target_capacity) self.iam_fleet_role = iam_fleet_role self.allocation_strategy = allocation_strategy self.state = "active" self.fulfilled_capacity = 0.0 self.launch_specs = [] for spec in launch_specs: self.launch_specs.append( SpotFleetLaunchSpec( ebs_optimized=spec["ebs_optimized"], group_set=[ val for key, val in spec.items() if key.startswith("group_set") ], iam_instance_profile=spec.get("iam_instance_profile._arn"), image_id=spec["image_id"], instance_type=spec["instance_type"], key_name=spec.get("key_name"), monitoring=spec.get("monitoring._enabled"), spot_price=spec.get("spot_price", self.spot_price), subnet_id=spec["subnet_id"], tag_specifications=self._parse_tag_specifications(spec), user_data=spec.get("user_data"), weighted_capacity=spec["weighted_capacity"], ) ) self.spot_requests = [] self.create_spot_requests(self.target_capacity) @property def physical_resource_id(self): return self.id @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-spotfleet.html return "AWS::EC2::SpotFleet" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): properties = cloudformation_json["Properties"]["SpotFleetRequestConfigData"] ec2_backend = ec2_backends[region_name] spot_price = properties.get("SpotPrice") target_capacity = properties["TargetCapacity"] iam_fleet_role = properties["IamFleetRole"] allocation_strategy = properties["AllocationStrategy"] launch_specs = properties["LaunchSpecifications"] launch_specs = [ dict( [ (camelcase_to_underscores(key), val) for key, val in launch_spec.items() ] ) for launch_spec in launch_specs ] spot_fleet_request = ec2_backend.request_spot_fleet( spot_price, target_capacity, iam_fleet_role, allocation_strategy, launch_specs, ) return spot_fleet_request def get_launch_spec_counts(self, weight_to_add): weight_map = defaultdict(int) weight_so_far = 0 if self.allocation_strategy == "diversified": launch_spec_index = 0 while True: launch_spec = self.launch_specs[ launch_spec_index % len(self.launch_specs) ] weight_map[launch_spec] += 1 weight_so_far += launch_spec.weighted_capacity if weight_so_far >= weight_to_add: break launch_spec_index += 1 else: # lowestPrice cheapest_spec = sorted( # FIXME: change `+inf` to the on demand price scaled to weighted capacity when it's not present self.launch_specs, key=lambda spec: float(spec.spot_price or "+inf"), )[0] weight_so_far = weight_to_add + ( weight_to_add % cheapest_spec.weighted_capacity ) weight_map[cheapest_spec] = int( weight_so_far // cheapest_spec.weighted_capacity ) return weight_map, weight_so_far def create_spot_requests(self, weight_to_add): weight_map, added_weight = self.get_launch_spec_counts(weight_to_add) for launch_spec, count in weight_map.items(): requests = self.ec2_backend.request_spot_instances( price=launch_spec.spot_price, image_id=launch_spec.image_id, count=count, type="persistent", valid_from=None, valid_until=None, launch_group=None, availability_zone_group=None, key_name=launch_spec.key_name, security_groups=launch_spec.group_set, user_data=launch_spec.user_data, instance_type=launch_spec.instance_type, placement=None, kernel_id=None, ramdisk_id=None, monitoring_enabled=launch_spec.monitoring, subnet_id=launch_spec.subnet_id, spot_fleet_id=self.id, tags=launch_spec.tag_specifications, ) self.spot_requests.extend(requests) self.fulfilled_capacity += added_weight return self.spot_requests def terminate_instances(self): instance_ids = [] new_fulfilled_capacity = self.fulfilled_capacity for req in self.spot_requests: instance = req.instance for spec in self.launch_specs: if ( spec.instance_type == instance.instance_type and spec.subnet_id == instance.subnet_id ): break if new_fulfilled_capacity - spec.weighted_capacity < self.target_capacity: continue new_fulfilled_capacity -= spec.weighted_capacity instance_ids.append(instance.id) self.spot_requests = [ req for req in self.spot_requests if req.instance.id not in instance_ids ] self.ec2_backend.terminate_instances(instance_ids) def _parse_tag_specifications(self, spec): try: tag_spec_num = max( [ int(key.split(".")[1]) for key in spec if key.startswith("tag_specification_set") ] ) except ValueError: # no tag specifications return {} tag_specifications = {} for si in range(1, tag_spec_num + 1): resource_type = spec[ "tag_specification_set.{si}._resource_type".format(si=si) ] tags = [ key for key in spec if key.startswith("tag_specification_set.{si}._tag".format(si=si)) ] tag_num = max([int(key.split(".")[3]) for key in tags]) tag_specifications[resource_type] = dict( ( spec[ "tag_specification_set.{si}._tag.{ti}._key".format(si=si, ti=ti) ], spec[ "tag_specification_set.{si}._tag.{ti}._value".format( si=si, ti=ti ) ], ) for ti in range(1, tag_num + 1) ) return tag_specifications class SpotFleetBackend(object): def __init__(self): self.spot_fleet_requests = {} super(SpotFleetBackend, self).__init__() def request_spot_fleet( self, spot_price, target_capacity, iam_fleet_role, allocation_strategy, launch_specs, ): spot_fleet_request_id = random_spot_fleet_request_id() request = SpotFleetRequest( self, spot_fleet_request_id, spot_price, target_capacity, iam_fleet_role, allocation_strategy, launch_specs, ) self.spot_fleet_requests[spot_fleet_request_id] = request return request def get_spot_fleet_request(self, spot_fleet_request_id): return self.spot_fleet_requests[spot_fleet_request_id] def describe_spot_fleet_instances(self, spot_fleet_request_id): spot_fleet = self.get_spot_fleet_request(spot_fleet_request_id) return spot_fleet.spot_requests def describe_spot_fleet_requests(self, spot_fleet_request_ids): requests = self.spot_fleet_requests.values() if spot_fleet_request_ids: requests = [ request for request in requests if request.id in spot_fleet_request_ids ] return requests def cancel_spot_fleet_requests(self, spot_fleet_request_ids, terminate_instances): spot_requests = [] for spot_fleet_request_id in spot_fleet_request_ids: spot_fleet = self.spot_fleet_requests[spot_fleet_request_id] if terminate_instances: spot_fleet.target_capacity = 0 spot_fleet.terminate_instances() spot_requests.append(spot_fleet) del self.spot_fleet_requests[spot_fleet_request_id] return spot_requests def modify_spot_fleet_request( self, spot_fleet_request_id, target_capacity, terminate_instances ): if target_capacity < 0: raise ValueError("Cannot reduce spot fleet capacity below 0") spot_fleet_request = self.spot_fleet_requests[spot_fleet_request_id] delta = target_capacity - spot_fleet_request.fulfilled_capacity spot_fleet_request.target_capacity = target_capacity if delta > 0: spot_fleet_request.create_spot_requests(delta) elif delta < 0 and terminate_instances == "Default": spot_fleet_request.terminate_instances() return True class ElasticAddress(TaggedEC2Resource, CloudFormationModel): def __init__(self, ec2_backend, domain, address=None, tags=None): self.ec2_backend = ec2_backend if address: self.public_ip = address else: self.public_ip = random_ip() self.allocation_id = random_eip_allocation_id() if domain == "vpc" else None self.id = self.allocation_id self.domain = domain self.instance = None self.eni = None self.association_id = None self.add_tags(tags or {}) @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-eip.html return "AWS::EC2::EIP" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): ec2_backend = ec2_backends[region_name] properties = cloudformation_json.get("Properties") instance_id = None if properties: domain = properties.get("Domain") # TODO: support tags from cloudformation template eip = ec2_backend.allocate_address(domain=domain if domain else "standard") instance_id = properties.get("InstanceId") else: eip = ec2_backend.allocate_address(domain="standard") if instance_id: instance = ec2_backend.get_instance_by_id(instance_id) ec2_backend.associate_address(instance, address=eip.public_ip) return eip @property def physical_resource_id(self): return self.public_ip def get_cfn_attribute(self, attribute_name): from moto.cloudformation.exceptions import UnformattedGetAttTemplateException if attribute_name == "AllocationId": return self.allocation_id raise UnformattedGetAttTemplateException() def get_filter_value(self, filter_name): if filter_name == "allocation-id": return self.allocation_id elif filter_name == "association-id": return self.association_id elif filter_name == "domain": return self.domain elif filter_name == "instance-id" and self.instance: return self.instance.id elif filter_name == "network-interface-id" and self.eni: return self.eni.id elif filter_name == "private-ip-address" and self.eni: return self.eni.private_ip_address elif filter_name == "public-ip": return self.public_ip elif filter_name == "network-interface-owner-id": # TODO: implement network-interface-owner-id raise FilterNotImplementedError(filter_name, "DescribeAddresses") else: return super(ElasticAddress, self).get_filter_value( filter_name, "DescribeAddresses" ) class ElasticAddressBackend(object): def __init__(self): self.addresses = [] super(ElasticAddressBackend, self).__init__() def allocate_address(self, domain, address=None, tags=None): if domain not in ["standard", "vpc"]: raise InvalidDomainError(domain) if address: address = ElasticAddress(self, domain=domain, address=address, tags=tags) else: address = ElasticAddress(self, domain=domain, tags=tags) self.addresses.append(address) return address def address_by_ip(self, ips): eips = [address for address in self.addresses if address.public_ip in ips] # TODO: Trim error message down to specific invalid address. if not eips or len(ips) > len(eips): raise InvalidAddressError(ips) return eips def address_by_allocation(self, allocation_ids): eips = [ address for address in self.addresses if address.allocation_id in allocation_ids ] # TODO: Trim error message down to specific invalid id. if not eips or len(allocation_ids) > len(eips): raise InvalidAllocationIdError(allocation_ids) return eips def address_by_association(self, association_ids): eips = [ address for address in self.addresses if address.association_id in association_ids ] # TODO: Trim error message down to specific invalid id. if not eips or len(association_ids) > len(eips): raise InvalidAssociationIdError(association_ids) return eips def associate_address( self, instance=None, eni=None, address=None, allocation_id=None, reassociate=False, ): eips = [] if address: eips = self.address_by_ip([address]) elif allocation_id: eips = self.address_by_allocation([allocation_id]) eip = eips[0] new_instance_association = bool( instance and (not eip.instance or eip.instance.id == instance.id) ) new_eni_association = bool(eni and (not eip.eni or eni.id == eip.eni.id)) if new_instance_association or new_eni_association or reassociate: eip.instance = instance eip.eni = eni if not eip.eni and instance: # default to primary network interface eip.eni = instance.nics[0] if eip.eni: eip.eni.public_ip = eip.public_ip if eip.domain == "vpc": eip.association_id = random_eip_association_id() return eip raise ResourceAlreadyAssociatedError(eip.public_ip) def describe_addresses(self, allocation_ids=None, public_ips=None, filters=None): matches = self.addresses if allocation_ids: matches = [addr for addr in matches if addr.allocation_id in allocation_ids] if len(allocation_ids) > len(matches): unknown_ids = set(allocation_ids) - set(matches) raise InvalidAllocationIdError(unknown_ids) if public_ips: matches = [addr for addr in matches if addr.public_ip in public_ips] if len(public_ips) > len(matches): unknown_ips = set(allocation_ids) - set(matches) raise InvalidAddressError(unknown_ips) if filters: matches = generic_filter(filters, matches) return matches def disassociate_address(self, address=None, association_id=None): eips = [] if address: eips = self.address_by_ip([address]) elif association_id: eips = self.address_by_association([association_id]) eip = eips[0] if eip.eni: eip.eni.public_ip = None if eip.eni.instance and eip.eni.instance._state.name == "running": eip.eni.check_auto_public_ip() eip.eni = None eip.instance = None eip.association_id = None return True def release_address(self, address=None, allocation_id=None): eips = [] if address: eips = self.address_by_ip([address]) elif allocation_id: eips = self.address_by_allocation([allocation_id]) eip = eips[0] self.disassociate_address(address=eip.public_ip) eip.allocation_id = None self.addresses.remove(eip) return True class DHCPOptionsSet(TaggedEC2Resource): def __init__( self, ec2_backend, domain_name_servers=None, domain_name=None, ntp_servers=None, netbios_name_servers=None, netbios_node_type=None, ): self.ec2_backend = ec2_backend self._options = { "domain-name-servers": domain_name_servers, "domain-name": domain_name, "ntp-servers": ntp_servers, "netbios-name-servers": netbios_name_servers, "netbios-node-type": netbios_node_type, } self.id = random_dhcp_option_id() self.vpc = None def get_filter_value(self, filter_name): """ API Version 2015-10-01 defines the following filters for DescribeDhcpOptions: * dhcp-options-id * key * value * tag:key=value * tag-key * tag-value Taken from: http://docs.aws.amazon.com/AWSEC2/latest/APIReference/API_DescribeDhcpOptions.html """ if filter_name == "dhcp-options-id": return self.id elif filter_name == "key": return list(self._options.keys()) elif filter_name == "value": values = [item for item in list(self._options.values()) if item] return itertools.chain(*values) else: return super(DHCPOptionsSet, self).get_filter_value( filter_name, "DescribeDhcpOptions" ) @property def options(self): return self._options class DHCPOptionsSetBackend(object): def __init__(self): self.dhcp_options_sets = {} super(DHCPOptionsSetBackend, self).__init__() def associate_dhcp_options(self, dhcp_options, vpc): dhcp_options.vpc = vpc vpc.dhcp_options = dhcp_options def create_dhcp_options( self, domain_name_servers=None, domain_name=None, ntp_servers=None, netbios_name_servers=None, netbios_node_type=None, ): NETBIOS_NODE_TYPES = [1, 2, 4, 8] for field_value in domain_name_servers, ntp_servers, netbios_name_servers: if field_value and len(field_value) > 4: raise InvalidParameterValueError(",".join(field_value)) if netbios_node_type and int(netbios_node_type[0]) not in NETBIOS_NODE_TYPES: raise InvalidParameterValueError(netbios_node_type) options = DHCPOptionsSet( self, domain_name_servers, domain_name, ntp_servers, netbios_name_servers, netbios_node_type, ) self.dhcp_options_sets[options.id] = options return options def describe_dhcp_options(self, options_ids=None): options_sets = [] for option_id in options_ids or []: if option_id in self.dhcp_options_sets: options_sets.append(self.dhcp_options_sets[option_id]) else: raise InvalidDHCPOptionsIdError(option_id) return options_sets or self.dhcp_options_sets.values() def delete_dhcp_options_set(self, options_id): if not (options_id and options_id.startswith("dopt-")): raise MalformedDHCPOptionsIdError(options_id) if options_id in self.dhcp_options_sets: if self.dhcp_options_sets[options_id].vpc: raise DependencyViolationError("Cannot delete assigned DHCP options.") self.dhcp_options_sets.pop(options_id) else: raise InvalidDHCPOptionsIdError(options_id) return True def get_all_dhcp_options(self, dhcp_options_ids=None, filters=None): dhcp_options_sets = self.dhcp_options_sets.values() if dhcp_options_ids: dhcp_options_sets = [ dhcp_options_set for dhcp_options_set in dhcp_options_sets if dhcp_options_set.id in dhcp_options_ids ] if len(dhcp_options_sets) != len(dhcp_options_ids): invalid_id = list( set(dhcp_options_ids).difference( set( [ dhcp_options_set.id for dhcp_options_set in dhcp_options_sets ] ) ) )[0] raise InvalidDHCPOptionsIdError(invalid_id) return generic_filter(filters, dhcp_options_sets) class VPNConnection(TaggedEC2Resource): def __init__( self, ec2_backend, id, type, customer_gateway_id, vpn_gateway_id=None, transit_gateway_id=None, tags={}, ): self.ec2_backend = ec2_backend self.id = id self.state = "available" self.customer_gateway_configuration = {} self.type = type self.customer_gateway_id = customer_gateway_id self.vpn_gateway_id = vpn_gateway_id self.transit_gateway_id = transit_gateway_id self.tunnels = None self.options = None self.static_routes = None self.add_tags(tags or {}) def get_filter_value(self, filter_name): return super(VPNConnection, self).get_filter_value( filter_name, "DescribeVpnConnections" ) class VPNConnectionBackend(object): def __init__(self): self.vpn_connections = {} super(VPNConnectionBackend, self).__init__() def create_vpn_connection( self, type, customer_gateway_id, vpn_gateway_id=None, transit_gateway_id=None, static_routes_only=None, tags={}, ): vpn_connection_id = random_vpn_connection_id() if static_routes_only: pass vpn_connection = VPNConnection( self, id=vpn_connection_id, type=type, customer_gateway_id=customer_gateway_id, vpn_gateway_id=vpn_gateway_id, transit_gateway_id=transit_gateway_id, tags=tags, ) self.vpn_connections[vpn_connection.id] = vpn_connection return vpn_connection def delete_vpn_connection(self, vpn_connection_id): if vpn_connection_id in self.vpn_connections: self.vpn_connections[vpn_connection_id].state = "deleted" else: raise InvalidVpnConnectionIdError(vpn_connection_id) return self.vpn_connections[vpn_connection_id] def describe_vpn_connections(self, vpn_connection_ids=None): vpn_connections = [] for vpn_connection_id in vpn_connection_ids or []: if vpn_connection_id in self.vpn_connections: vpn_connections.append(self.vpn_connections[vpn_connection_id]) else: raise InvalidVpnConnectionIdError(vpn_connection_id) return vpn_connections or self.vpn_connections.values() def get_all_vpn_connections(self, vpn_connection_ids=None, filters=None): vpn_connections = self.vpn_connections.values() if vpn_connection_ids: vpn_connections = [ vpn_connection for vpn_connection in vpn_connections if vpn_connection.id in vpn_connection_ids ] if len(vpn_connections) != len(vpn_connection_ids): invalid_id = list( set(vpn_connection_ids).difference( set([vpn_connection.id for vpn_connection in vpn_connections]) ) )[0] raise InvalidVpnConnectionIdError(invalid_id) return generic_filter(filters, vpn_connections) class NetworkAclBackend(object): def __init__(self): self.network_acls = {} super(NetworkAclBackend, self).__init__() def get_network_acl(self, network_acl_id): network_acl = self.network_acls.get(network_acl_id, None) if not network_acl: raise InvalidNetworkAclIdError(network_acl_id) return network_acl def create_network_acl(self, vpc_id, tags=[], default=False): network_acl_id = random_network_acl_id() self.get_vpc(vpc_id) network_acl = NetworkAcl(self, network_acl_id, vpc_id, default) for tag in tags: network_acl.add_tag(tag.get("Key"), tag.get("Value")) self.network_acls[network_acl_id] = network_acl if default: self.add_default_entries(network_acl_id) return network_acl def add_default_entries(self, network_acl_id): default_acl_entries = [ {"rule_number": "100", "rule_action": "allow", "egress": "true"}, {"rule_number": "32767", "rule_action": "deny", "egress": "true"}, {"rule_number": "100", "rule_action": "allow", "egress": "false"}, {"rule_number": "32767", "rule_action": "deny", "egress": "false"}, ] for entry in default_acl_entries: self.create_network_acl_entry( network_acl_id=network_acl_id, rule_number=entry["rule_number"], protocol="-1", rule_action=entry["rule_action"], egress=entry["egress"], cidr_block="0.0.0.0/0", icmp_code=None, icmp_type=None, port_range_from=None, port_range_to=None, ) def get_all_network_acls(self, network_acl_ids=None, filters=None): self.describe_network_acls(network_acl_ids, filters) def delete_network_acl(self, network_acl_id): deleted = self.network_acls.pop(network_acl_id, None) if not deleted: raise InvalidNetworkAclIdError(network_acl_id) return deleted def create_network_acl_entry( self, network_acl_id, rule_number, protocol, rule_action, egress, cidr_block, icmp_code, icmp_type, port_range_from, port_range_to, ): network_acl = self.get_network_acl(network_acl_id) if any( entry.egress == egress and entry.rule_number == rule_number for entry in network_acl.network_acl_entries ): raise NetworkAclEntryAlreadyExistsError(rule_number) network_acl_entry = NetworkAclEntry( self, network_acl_id, rule_number, protocol, rule_action, egress, cidr_block, icmp_code, icmp_type, port_range_from, port_range_to, ) network_acl.network_acl_entries.append(network_acl_entry) return network_acl_entry def delete_network_acl_entry(self, network_acl_id, rule_number, egress): network_acl = self.get_network_acl(network_acl_id) entry = next( entry for entry in network_acl.network_acl_entries if entry.egress == egress and entry.rule_number == rule_number ) if entry is not None: network_acl.network_acl_entries.remove(entry) return entry def replace_network_acl_entry( self, network_acl_id, rule_number, protocol, rule_action, egress, cidr_block, icmp_code, icmp_type, port_range_from, port_range_to, ): self.delete_network_acl_entry(network_acl_id, rule_number, egress) network_acl_entry = self.create_network_acl_entry( network_acl_id, rule_number, protocol, rule_action, egress, cidr_block, icmp_code, icmp_type, port_range_from, port_range_to, ) return network_acl_entry def replace_network_acl_association(self, association_id, network_acl_id): # lookup existing association for subnet and delete it default_acl = next( value for key, value in self.network_acls.items() if association_id in value.associations.keys() ) subnet_id = None for key, value in default_acl.associations.items(): if key == association_id: subnet_id = default_acl.associations[key].subnet_id del default_acl.associations[key] break new_assoc_id = random_network_acl_subnet_association_id() association = NetworkAclAssociation( self, new_assoc_id, subnet_id, network_acl_id ) new_acl = self.get_network_acl(network_acl_id) new_acl.associations[new_assoc_id] = association return association def associate_default_network_acl_with_subnet(self, subnet_id, vpc_id): association_id = random_network_acl_subnet_association_id() acl = next( acl for acl in self.network_acls.values() if acl.default and acl.vpc_id == vpc_id ) acl.associations[association_id] = NetworkAclAssociation( self, association_id, subnet_id, acl.id ) def describe_network_acls(self, network_acl_ids=None, filters=None): network_acls = self.network_acls.values() if network_acl_ids: network_acls = [ network_acl for network_acl in network_acls if network_acl.id in network_acl_ids ] if len(network_acls) != len(network_acl_ids): invalid_id = list( set(network_acl_ids).difference( set([network_acl.id for network_acl in network_acls]) ) )[0] raise InvalidRouteTableIdError(invalid_id) return generic_filter(filters, network_acls) class NetworkAclAssociation(object): def __init__(self, ec2_backend, new_association_id, subnet_id, network_acl_id): self.ec2_backend = ec2_backend self.id = new_association_id self.new_association_id = new_association_id self.subnet_id = subnet_id self.network_acl_id = network_acl_id super(NetworkAclAssociation, self).__init__() class NetworkAcl(TaggedEC2Resource): def __init__( self, ec2_backend, network_acl_id, vpc_id, default=False, owner_id=OWNER_ID, ): self.ec2_backend = ec2_backend self.id = network_acl_id self.vpc_id = vpc_id self.owner_id = owner_id self.network_acl_entries = [] self.associations = {} self.default = "true" if default is True else "false" def get_filter_value(self, filter_name): if filter_name == "default": return self.default elif filter_name == "vpc-id": return self.vpc_id elif filter_name == "association.network-acl-id": return self.id elif filter_name == "association.subnet-id": return [assoc.subnet_id for assoc in self.associations.values()] elif filter_name == "owner-id": return self.owner_id else: return super(NetworkAcl, self).get_filter_value( filter_name, "DescribeNetworkAcls" ) class NetworkAclEntry(TaggedEC2Resource): def __init__( self, ec2_backend, network_acl_id, rule_number, protocol, rule_action, egress, cidr_block, icmp_code, icmp_type, port_range_from, port_range_to, ): self.ec2_backend = ec2_backend self.network_acl_id = network_acl_id self.rule_number = rule_number self.protocol = protocol self.rule_action = rule_action self.egress = egress self.cidr_block = cidr_block self.icmp_code = icmp_code self.icmp_type = icmp_type self.port_range_from = port_range_from self.port_range_to = port_range_to class VpnGateway(TaggedEC2Resource): def __init__( self, ec2_backend, id, type, amazon_side_asn, availability_zone, tags=None, state="available", ): self.ec2_backend = ec2_backend self.id = id self.type = type self.amazon_side_asn = amazon_side_asn self.availability_zone = availability_zone self.state = state self.add_tags(tags or {}) self.attachments = {} super(VpnGateway, self).__init__() def get_filter_value(self, filter_name): if filter_name == "attachment.vpc-id": return self.attachments.keys() elif filter_name == "attachment.state": return [attachment.state for attachment in self.attachments.values()] elif filter_name == "vpn-gateway-id": return self.id elif filter_name == "type": return self.type return super(VpnGateway, self).get_filter_value( filter_name, "DescribeVpnGateways" ) class VpnGatewayAttachment(object): def __init__(self, vpc_id, state): self.vpc_id = vpc_id self.state = state super(VpnGatewayAttachment, self).__init__() class VpnGatewayBackend(object): def __init__(self): self.vpn_gateways = {} super(VpnGatewayBackend, self).__init__() def create_vpn_gateway( self, type="ipsec.1", amazon_side_asn=None, availability_zone=None, tags=None ): vpn_gateway_id = random_vpn_gateway_id() vpn_gateway = VpnGateway( self, vpn_gateway_id, type, amazon_side_asn, availability_zone, tags ) self.vpn_gateways[vpn_gateway_id] = vpn_gateway return vpn_gateway def describe_vpn_gateways(self, filters=None): vpn_gateways = self.vpn_gateways.values() return generic_filter(filters, vpn_gateways) def get_vpn_gateway(self, vpn_gateway_id): vpn_gateway = self.vpn_gateways.get(vpn_gateway_id, None) if not vpn_gateway: raise InvalidVpnGatewayIdError(vpn_gateway_id) return vpn_gateway def attach_vpn_gateway(self, vpn_gateway_id, vpc_id): vpn_gateway = self.get_vpn_gateway(vpn_gateway_id) self.get_vpc(vpc_id) attachment = VpnGatewayAttachment(vpc_id, state="attached") vpn_gateway.attachments[vpc_id] = attachment return attachment def delete_vpn_gateway(self, vpn_gateway_id): deleted = self.vpn_gateways.pop(vpn_gateway_id, None) if not deleted: raise InvalidVpnGatewayIdError(vpn_gateway_id) return deleted def detach_vpn_gateway(self, vpn_gateway_id, vpc_id): vpn_gateway = self.get_vpn_gateway(vpn_gateway_id) self.get_vpc(vpc_id) detached = vpn_gateway.attachments.pop(vpc_id, None) if not detached: raise InvalidVPCIdError(vpc_id) return detached class CustomerGateway(TaggedEC2Resource): def __init__( self, ec2_backend, id, type, ip_address, bgp_asn, state="available", tags=None ): self.ec2_backend = ec2_backend self.id = id self.type = type self.ip_address = ip_address self.bgp_asn = bgp_asn self.attachments = {} self.state = state self.add_tags(tags or {}) super(CustomerGateway, self).__init__() def get_filter_value(self, filter_name): return super(CustomerGateway, self).get_filter_value( filter_name, "DescribeCustomerGateways" ) class CustomerGatewayBackend(object): def __init__(self): self.customer_gateways = {} super(CustomerGatewayBackend, self).__init__() def create_customer_gateway( self, type="ipsec.1", ip_address=None, bgp_asn=None, tags=None ): customer_gateway_id = random_customer_gateway_id() customer_gateway = CustomerGateway( self, customer_gateway_id, type, ip_address, bgp_asn, tags=tags ) self.customer_gateways[customer_gateway_id] = customer_gateway return customer_gateway def get_all_customer_gateways(self, filters=None): customer_gateways = self.customer_gateways.values() if filters is not None: if filters.get("customer-gateway-id") is not None: customer_gateways = [ customer_gateway for customer_gateway in customer_gateways if customer_gateway.id in filters["customer-gateway-id"] ] if filters.get("type") is not None: customer_gateways = [ customer_gateway for customer_gateway in customer_gateways if customer_gateway.type in filters["type"] ] if filters.get("bgp-asn") is not None: customer_gateways = [ customer_gateway for customer_gateway in customer_gateways if customer_gateway.bgp_asn in filters["bgp-asn"] ] if filters.get("ip-address") is not None: customer_gateways = [ customer_gateway for customer_gateway in customer_gateways if customer_gateway.ip_address in filters["ip-address"] ] return customer_gateways def get_customer_gateway(self, customer_gateway_id): customer_gateway = self.customer_gateways.get(customer_gateway_id, None) if not customer_gateway: raise InvalidCustomerGatewayIdError(customer_gateway_id) return customer_gateway def delete_customer_gateway(self, customer_gateway_id): customer_gateway = self.get_customer_gateway(customer_gateway_id) customer_gateway.state = "deleted" # deleted = self.customer_gateways.pop(customer_gateway_id, None) deleted = True if not deleted: raise InvalidCustomerGatewayIdError(customer_gateway_id) return deleted class TransitGateway(TaggedEC2Resource, CloudFormationModel): DEFAULT_OPTIONS = { "AmazonSideAsn": "64512", "AssociationDefaultRouteTableId": "tgw-rtb-0d571391e50cf8514", "AutoAcceptSharedAttachments": "disable", "DefaultRouteTableAssociation": "enable", "DefaultRouteTablePropagation": "enable", "DnsSupport": "enable", "MulticastSupport": "disable", "PropagationDefaultRouteTableId": "tgw-rtb-0d571391e50cf8514", "TransitGatewayCidrBlocks": None, "VpnEcmpSupport": "enable", } def __init__(self, backend, description=None, options=None): self.ec2_backend = backend self.id = random_transit_gateway_id() self.description = description self.state = "available" self.options = merge_multiple_dicts(self.DEFAULT_OPTIONS, options or {}) self._created_at = datetime.utcnow() @property def physical_resource_id(self): return self.id @property def create_time(self): return iso_8601_datetime_with_milliseconds(self._created_at) @property def owner_id(self): return ACCOUNT_ID @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-natgateway.html return "AWS::EC2::TransitGateway" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): ec2_backend = ec2_backends[region_name] properties = cloudformation_json["Properties"] description = properties["Description"] options = dict(properties) del options["Description"] transit_gateway = ec2_backend.create_transit_gateway( description=description, options=options ) for tag in properties.get("Tags", []): tag_key = tag["Key"] tag_value = tag["Value"] transit_gateway.add_tag(tag_key, tag_value) return transit_gateway class TransitGatewayBackend(object): def __init__(self): self.transit_gateways = {} super(TransitGatewayBackend, self).__init__() def create_transit_gateway(self, description=None, options=None, tags=[]): transit_gateway = TransitGateway(self, description, options) for tag in tags: tag_key = tag.get("Key") tag_value = tag.get("Value") transit_gateway.add_tag(tag_key, tag_value) self.transit_gateways[transit_gateway.id] = transit_gateway return transit_gateway def describe_transit_gateways(self, filters): transit_gateways = list(self.transit_gateways.values()) attr_pairs = ( ("transit-gateway-id", "id"), ("state", "state"), ("owner-id", "owner_id"), ) result = transit_gateways if filters: result = filter_resources(transit_gateways, filters, attr_pairs) return result def delete_transit_gateway(self, transit_gateway_id): return self.transit_gateways.pop(transit_gateway_id) def modify_transit_gateway( self, transit_gateway_id, description=None, options=None ): transit_gateway = self.transit_gateways.get(transit_gateway_id) if description: transit_gateway.description = description if options: transit_gateway.options.update(options) return transit_gateway class TransitGatewayRouteTable(TaggedEC2Resource): def __init__( self, backend, transit_gateway_id, tags=None, default_association_route_table=False, default_propagation_route_table=False, ): self.ec2_backend = backend self.id = random_transit_gateway_route_table_id() self.transit_gateway_id = transit_gateway_id self._created_at = datetime.utcnow() self.default_association_route_table = default_association_route_table self.default_propagation_route_table = default_propagation_route_table self.state = "available" self.routes = {} self.add_tags(tags or {}) self.route_table_association = {} self.route_table_propagation = {} @property def physical_resource_id(self): return self.id @property def create_time(self): return iso_8601_datetime_with_milliseconds(self._created_at) class TransitGatewayRouteTableBackend(object): def __init__(self): self.transit_gateways_route_tables = {} super(TransitGatewayRouteTableBackend, self).__init__() def create_transit_gateway_route_table( self, transit_gateway_id, tags=None, default_association_route_table=False, default_propagation_route_table=False, ): transit_gateways_route_table = TransitGatewayRouteTable( self, transit_gateway_id=transit_gateway_id, tags=tags, default_association_route_table=default_association_route_table, default_propagation_route_table=default_propagation_route_table, ) self.transit_gateways_route_tables[ transit_gateways_route_table.id ] = transit_gateways_route_table return transit_gateways_route_table def get_all_transit_gateway_route_tables( self, transit_gateway_route_table_ids=None, filters=None ): transit_gateway_route_tables = list(self.transit_gateways_route_tables.values()) attr_pairs = ( ("default-association-route-table", "default_association_route_table"), ("default-propagation-route-table", "default_propagation_route_table"), ("state", "state"), ("transit-gateway-id", "transit_gateway_id"), ("transit-gateway-route-table-id", "id"), ) if transit_gateway_route_table_ids: transit_gateway_route_tables = [ transit_gateway_route_table for transit_gateway_route_table in transit_gateway_route_tables if transit_gateway_route_table.id in transit_gateway_route_table_ids ] result = transit_gateway_route_tables if filters: result = filter_resources(transit_gateway_route_tables, filters, attr_pairs) return result def delete_transit_gateway_route_table(self, transit_gateway_route_table_id): transit_gateways_route_table = self.transit_gateways_route_tables[ transit_gateway_route_table_id ] transit_gateways_route_table.state = "deleted" return transit_gateways_route_table def create_transit_gateway_route( self, transit_gateway_route_table_id, destination_cidr_block, transit_gateway_attachment_id=None, blackhole=False, ): transit_gateways_route_table = self.transit_gateways_route_tables.get( transit_gateway_route_table_id ) transit_gateway_attachment = self.transit_gateway_attachments.get( transit_gateway_attachment_id ) transit_gateways_route_table.routes[destination_cidr_block] = { "destinationCidrBlock": destination_cidr_block, "prefixListId": "", "state": "blackhole" if blackhole else "active", "type": "static", } if transit_gateway_attachment: transit_gateway_attachment_dict = { "transitGatewayAttachments": { "resourceId": transit_gateway_attachment.resource_id, "resourceType": transit_gateway_attachment.resource_type, "transitGatewayAttachmentId": transit_gateway_attachment_id, } } transit_gateways_route_table.routes[destination_cidr_block].update( transit_gateway_attachment_dict ) return transit_gateways_route_table.routes[destination_cidr_block] def delete_transit_gateway_route( self, transit_gateway_route_table_id, destination_cidr_block, ): transit_gateways_route_table = self.transit_gateways_route_tables[ transit_gateway_route_table_id ] transit_gateways_route_table.routes[destination_cidr_block]["state"] = "deleted" return transit_gateways_route_table def search_transit_gateway_routes( self, transit_gateway_route_table_id, filters, max_results=None ): transit_gateway_route_table = self.transit_gateways_route_tables.get( transit_gateway_route_table_id ) if not transit_gateway_route_table: return [] attr_pairs = ( ("type", "type"), ("state", "state"), ) routes = transit_gateway_route_table.routes.copy() for key in transit_gateway_route_table.routes: for attrs in attr_pairs: values = filters.get(attrs[0]) or None if values: if routes.get(key).get(attrs[1]) not in values: routes.pop(key) break if max_results: routes = routes[: int(max_results)] return routes def set_route_table_association( self, transit_gateway_attachment_id, transit_gateway_route_table_id ): self.transit_gateways_route_tables[ transit_gateway_route_table_id ].route_table_association = { "resourceId": self.transit_gateway_attachments[ transit_gateway_attachment_id ].resource_id, "resourceType": self.transit_gateway_attachments[ transit_gateway_attachment_id ].resource_type, "state": "associated", "transitGatewayAttachmentId": transit_gateway_attachment_id, } def unset_route_table_association(self, tgw_rt_id): tgw_rt = self.transit_gateways_route_tables[tgw_rt_id] tgw_rt.route_table_association = {} def set_route_table_propagation( self, transit_gateway_attachment_id, transit_gateway_route_table_id ): self.transit_gateways_route_tables[ transit_gateway_route_table_id ].route_table_propagation = { "resourceId": self.transit_gateway_attachments[ transit_gateway_attachment_id ].resource_id, "resourceType": self.transit_gateway_attachments[ transit_gateway_attachment_id ].resource_type, "state": "enabled", "transitGatewayAttachmentId": transit_gateway_attachment_id, } def unset_route_table_propagation(self, tgw_rt_id): tgw_rt = self.transit_gateways_route_tables[tgw_rt_id] tgw_rt.route_table_propagation = {} def disable_route_table_propagation(self, transit_gateway_route_table_id): self.transit_gateways_route_tables[ transit_gateway_route_table_id ].route_table_propagation = {} def get_all_transit_gateway_route_table_associations( self, transit_gateway_route_table_id=None, filters=None ): transit_gateway_route_tables = list(self.transit_gateways_route_tables.values()) if transit_gateway_route_tables: transit_gateway_route_tables = [ transit_gateway_route_table for transit_gateway_route_table in transit_gateway_route_tables if transit_gateway_route_table.id in transit_gateway_route_table_id ] attr_pairs = ( ("resource-id", "route_table_association", "resourceId"), ("resource-type", "route_table_association", "resourceType"), ( "transit-gateway-attachment-id", "route_table_association", "transitGatewayAttachmentId", ), ) result = transit_gateway_route_tables if filters: result = filter_resources(transit_gateway_route_tables, filters, attr_pairs) return result def get_all_transit_gateway_route_table_propagations( self, transit_gateway_route_table_id=None, filters=None ): transit_gateway_route_tables = list(self.transit_gateways_route_tables.values()) if transit_gateway_route_tables: transit_gateway_route_tables = [ transit_gateway_route_table for transit_gateway_route_table in transit_gateway_route_tables if transit_gateway_route_table.id in transit_gateway_route_table_id ] attr_pairs = ( ("resource-id", "route_table_propagation", "resourceId"), ("resource-type", "route_table_propagation", "resourceType"), ( "transit-gateway-attachment-id", "route_table_propagation", "transitGatewayAttachmentId", ), ) result = transit_gateway_route_tables if filters: result = filter_resources(transit_gateway_route_tables, filters, attr_pairs) return result class TransitGatewayAttachment(TaggedEC2Resource): def __init__( self, backend, resource_id, resource_type, transit_gateway_id, tags=None ): self.ec2_backend = backend self.association = {} self.propagation = {} self.resource_id = resource_id self.resource_type = resource_type self.id = random_transit_gateway_attachment_id() self.transit_gateway_id = transit_gateway_id self.state = "available" self.add_tags(tags or {}) self._created_at = datetime.utcnow() self.owner_id = self.resource_owner_id @property def create_time(self): return iso_8601_datetime_with_milliseconds(self._created_at) @property def resource_owner_id(self): return ACCOUNT_ID @property def transit_gateway_owner_id(self): return ACCOUNT_ID class TransitGatewayVpcAttachment(TransitGatewayAttachment): DEFAULT_OPTIONS = { "ApplianceModeSupport": "disable", "DnsSupport": "enable", "Ipv6Support": "disable", } def __init__( self, backend, transit_gateway_id, vpc_id, subnet_ids, tags=None, options=None ): super().__init__( backend=backend, transit_gateway_id=transit_gateway_id, resource_id=vpc_id, resource_type="vpc", tags=tags, ) self.vpc_id = vpc_id self.subnet_ids = subnet_ids self.options = merge_multiple_dicts(self.DEFAULT_OPTIONS, options or {}) class TransitGatewayPeeringAttachment(TransitGatewayAttachment): def __init__( self, backend, transit_gateway_id=None, peer_transit_gateway_id=None, peer_region=None, peer_account_id=None, tags=None, region_name=None, ): super().__init__( backend=backend, transit_gateway_id=transit_gateway_id, resource_id=peer_transit_gateway_id, resource_type="peering", tags=tags, ) self.accepter_tgw_info = { "ownerId": peer_account_id, "region": peer_region, "transitGatewayId": peer_transit_gateway_id, } self.requester_tgw_info = { "ownerId": self.owner_id, "region": region_name, "transitGatewayId": transit_gateway_id, } self.status = PeeringConnectionStatus() @property def resource_owner_id(self): return ACCOUNT_ID class TransitGatewayAttachmentBackend(object): def __init__(self): self.transit_gateway_attachments = {} super(TransitGatewayAttachmentBackend, self).__init__() def create_transit_gateway_vpn_attachment( self, vpn_id, transit_gateway_id, tags=[] ): transit_gateway_vpn_attachment = TransitGatewayAttachment( self, resource_id=vpn_id, resource_type="vpn", transit_gateway_id=transit_gateway_id, tags=tags, ) self.transit_gateway_attachments[ transit_gateway_vpn_attachment.id ] = transit_gateway_vpn_attachment return transit_gateway_vpn_attachment def create_transit_gateway_vpc_attachment( self, transit_gateway_id, vpc_id, subnet_ids, tags=None, options=None ): transit_gateway_vpc_attachment = TransitGatewayVpcAttachment( self, transit_gateway_id=transit_gateway_id, tags=tags, vpc_id=vpc_id, subnet_ids=subnet_ids, options=options, ) self.transit_gateway_attachments[ transit_gateway_vpc_attachment.id ] = transit_gateway_vpc_attachment return transit_gateway_vpc_attachment def describe_transit_gateway_attachments( self, transit_gateways_attachment_ids=None, filters=None, max_results=0 ): transit_gateway_attachments = list(self.transit_gateway_attachments.values()) attr_pairs = ( ("resource-id", "resource_id"), ("resource-type", "resource_type"), ("transit-gateway-id", "transit_gateway_id"), ) if ( not transit_gateways_attachment_ids == [] and transit_gateways_attachment_ids is not None ): transit_gateway_attachments = [ transit_gateways_attachment for transit_gateways_attachment in transit_gateway_attachments if transit_gateways_attachment.id in transit_gateways_attachment_ids ] result = transit_gateway_attachments if filters: result = filter_resources(transit_gateway_attachments, filters, attr_pairs) return result def describe_transit_gateway_vpc_attachments( self, transit_gateways_attachment_ids=None, filters=None, max_results=0 ): transit_gateway_attachments = list(self.transit_gateway_attachments.values()) attr_pairs = ( ("state", "state"), ("transit-gateway-attachment-id", "id"), ("transit-gateway-id", "transit_gateway_id"), ("vpc-id", "resource_id"), ) if ( not transit_gateways_attachment_ids == [] and transit_gateways_attachment_ids is not None ): transit_gateway_attachments = [ transit_gateways_attachment for transit_gateways_attachment in transit_gateway_attachments if transit_gateways_attachment.id in transit_gateways_attachment_ids ] result = transit_gateway_attachments if filters: result = filter_resources(transit_gateway_attachments, filters, attr_pairs) return result def delete_transit_gateway_vpc_attachment(self, transit_gateway_attachment_id=None): transit_gateway_attachment = self.transit_gateway_attachments.pop( transit_gateway_attachment_id ) transit_gateway_attachment.state = "deleted" return transit_gateway_attachment def modify_transit_gateway_vpc_attachment( self, add_subnet_ids=None, options=None, remove_subnet_ids=None, transit_gateway_attachment_id=None, ): tgw_attachment = self.transit_gateway_attachments[transit_gateway_attachment_id] if remove_subnet_ids: tgw_attachment.subnet_ids = [ id for id in tgw_attachment.subnet_ids if id not in remove_subnet_ids ] if options: tgw_attachment.options.update(options) if add_subnet_ids: for id in add_subnet_ids: tgw_attachment.subnet_ids.append(id) return tgw_attachment def set_attachment_association( self, transit_gateway_attachment_id=None, transit_gateway_route_table_id=None ): self.transit_gateway_attachments[transit_gateway_attachment_id].association = { "state": "associated", "transitGatewayRouteTableId": transit_gateway_route_table_id, } def unset_attachment_association(self, tgw_attach_id): self.transit_gateway_attachments.get(tgw_attach_id).association = {} def set_attachment_propagation( self, transit_gateway_attachment_id=None, transit_gateway_route_table_id=None ): self.transit_gateway_attachments[transit_gateway_attachment_id].propagation = { "state": "enabled", "transitGatewayRouteTableId": transit_gateway_route_table_id, } def unset_attachment_propagation(self, tgw_attach_id): self.transit_gateway_attachments.get(tgw_attach_id).propagation = {} def disable_attachment_propagation(self, transit_gateway_attachment_id=None): self.transit_gateway_attachments[transit_gateway_attachment_id].propagation[ "state" ] = "disabled" def create_transit_gateway_peering_attachment( self, transit_gateway_id, peer_transit_gateway_id, peer_region, peer_account_id, tags, ): transit_gateway_peering_attachment = TransitGatewayPeeringAttachment( self, transit_gateway_id=transit_gateway_id, peer_transit_gateway_id=peer_transit_gateway_id, peer_region=peer_region, peer_account_id=peer_account_id, tags=tags, region_name=self.region_name, ) transit_gateway_peering_attachment.status.accept() transit_gateway_peering_attachment.state = "available" self.transit_gateway_attachments[ transit_gateway_peering_attachment.id ] = transit_gateway_peering_attachment return transit_gateway_peering_attachment def describe_transit_gateway_peering_attachments( self, transit_gateways_attachment_ids=None, filters=None, max_results=0 ): transit_gateway_attachments = list(self.transit_gateway_attachments.values()) attr_pairs = ( ("state", "state"), ("transit-gateway-attachment-id", "id"), ("local-owner-id", "requester_tgw_info", "ownerId"), ("remote-owner-id", "accepter_tgw_info", "ownerId"), ) if transit_gateways_attachment_ids: transit_gateway_attachments = [ transit_gateways_attachment for transit_gateways_attachment in transit_gateway_attachments if transit_gateways_attachment.id in transit_gateways_attachment_ids ] if filters: transit_gateway_attachments = filter_resources( transit_gateway_attachments, filters, attr_pairs ) transit_gateway_attachments = describe_tag_filter( filters, transit_gateway_attachments ) return transit_gateway_attachments def accept_transit_gateway_peering_attachment(self, transit_gateway_attachment_id): transit_gateway_attachment = self.transit_gateway_attachments[ transit_gateway_attachment_id ] transit_gateway_attachment.state = "available" transit_gateway_attachment.status.accept() return transit_gateway_attachment def reject_transit_gateway_peering_attachment(self, transit_gateway_attachment_id): transit_gateway_attachment = self.transit_gateway_attachments[ transit_gateway_attachment_id ] transit_gateway_attachment.state = "rejected" transit_gateway_attachment.status.reject() return transit_gateway_attachment def delete_transit_gateway_peering_attachment(self, transit_gateway_attachment_id): transit_gateway_attachment = self.transit_gateway_attachments[ transit_gateway_attachment_id ] transit_gateway_attachment.state = "deleted" transit_gateway_attachment.status.deleted() return transit_gateway_attachment class TransitGatewayRelations(object): # this class is for TransitGatewayAssociation and TransitGatewayPropagation def __init__( self, backend, transit_gateway_attachment_id=None, transit_gateway_route_table_id=None, state=None, ): self.ec2_backend = backend self.transit_gateway_attachment_id = transit_gateway_attachment_id self.transit_gateway_route_table_id = transit_gateway_route_table_id self.resource_id = backend.transit_gateway_attachments[ transit_gateway_attachment_id ].resource_id self.resource_type = backend.transit_gateway_attachments[ transit_gateway_attachment_id ].resource_type self.state = state class TransitGatewayRelationsBackend(object): def __init__(self): self.transit_gateway_associations = {} self.transit_gateway_propagations = {} super(TransitGatewayRelationsBackend, self).__init__() def associate_transit_gateway_route_table( self, transit_gateway_attachment_id=None, transit_gateway_route_table_id=None ): transit_gateway_association = TransitGatewayRelations( self, transit_gateway_attachment_id, transit_gateway_route_table_id, state="associated", ) self.set_route_table_association( transit_gateway_attachment_id, transit_gateway_route_table_id ) self.set_attachment_association( transit_gateway_attachment_id, transit_gateway_route_table_id ) self.transit_gateway_associations[ transit_gateway_attachment_id ] = transit_gateway_association return transit_gateway_association def enable_transit_gateway_route_table_propagation( self, transit_gateway_attachment_id=None, transit_gateway_route_table_id=None ): transit_gateway_propagation = TransitGatewayRelations( self, transit_gateway_attachment_id, transit_gateway_route_table_id, state="enabled", ) self.set_route_table_propagation( transit_gateway_attachment_id, transit_gateway_route_table_id ) self.set_attachment_propagation( transit_gateway_attachment_id, transit_gateway_route_table_id ) self.transit_gateway_propagations[ transit_gateway_attachment_id ] = transit_gateway_propagation return transit_gateway_propagation def disable_transit_gateway_route_table_propagation( self, transit_gateway_attachment_id=None, transit_gateway_route_table_id=None ): self.disable_route_table_propagation( transit_gateway_route_table_id=transit_gateway_route_table_id ) self.disable_attachment_propagation( transit_gateway_attachment_id=transit_gateway_attachment_id ) self.transit_gateway_propagations[ transit_gateway_attachment_id ].state = "disabled" transit_gateway_propagation = self.transit_gateway_propagations.pop( transit_gateway_attachment_id ) return transit_gateway_propagation def disassociate_transit_gateway_route_table(self, tgw_attach_id, tgw_rt_id): tgw_association = self.transit_gateway_associations.pop(tgw_attach_id) tgw_association.state = "disassociated" self.unset_route_table_association(tgw_rt_id) self.unset_attachment_association(tgw_attach_id) return tgw_association class NatGateway(CloudFormationModel): def __init__( self, backend, subnet_id, allocation_id, tags=[], connectivity_type="public" ): # public properties self.id = random_nat_gateway_id() self.subnet_id = subnet_id self.allocation_id = allocation_id self.state = "available" self.private_ip = random_private_ip() self.connectivity_type = connectivity_type # protected properties self._created_at = datetime.utcnow() self._backend = backend # NOTE: this is the core of NAT Gateways creation self._eni = self._backend.create_network_interface( backend.get_subnet(self.subnet_id), self.private_ip ) # associate allocation with ENI self._backend.associate_address(eni=self._eni, allocation_id=self.allocation_id) self.tags = tags @property def physical_resource_id(self): return self.id @property def vpc_id(self): subnet = self._backend.get_subnet(self.subnet_id) return subnet.vpc_id @property def create_time(self): return iso_8601_datetime_with_milliseconds(self._created_at) @property def network_interface_id(self): return self._eni.id @property def public_ip(self): eips = self._backend.address_by_allocation([self.allocation_id]) return eips[0].public_ip @staticmethod def cloudformation_name_type(): return None @staticmethod def cloudformation_type(): # https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-ec2-natgateway.html return "AWS::EC2::NatGateway" @classmethod def create_from_cloudformation_json( cls, resource_name, cloudformation_json, region_name ): ec2_backend = ec2_backends[region_name] nat_gateway = ec2_backend.create_nat_gateway( cloudformation_json["Properties"]["SubnetId"], cloudformation_json["Properties"]["AllocationId"], ) return nat_gateway class NatGatewayBackend(object): def __init__(self): self.nat_gateways = {} super(NatGatewayBackend, self).__init__() def describe_nat_gateways(self, filters): nat_gateways = self.nat_gateways.values() if filters is not None: if filters.get("nat-gateway-id") is not None: nat_gateways = [ nat_gateway for nat_gateway in nat_gateways if nat_gateway.id in filters["nat-gateway-id"] ] if filters.get("vpc-id") is not None: nat_gateways = [ nat_gateway for nat_gateway in nat_gateways if nat_gateway.vpc_id in filters["vpc-id"] ] if filters.get("subnet-id") is not None: nat_gateways = [ nat_gateway for nat_gateway in nat_gateways if nat_gateway.subnet_id in filters["subnet-id"] ] if filters.get("state") is not None: nat_gateways = [ nat_gateway for nat_gateway in nat_gateways if nat_gateway.state in filters["state"] ] return nat_gateways def create_nat_gateway( self, subnet_id, allocation_id, tags=[], connectivity_type="public" ): nat_gateway = NatGateway( self, subnet_id, allocation_id, tags, connectivity_type ) self.nat_gateways[nat_gateway.id] = nat_gateway return nat_gateway def delete_nat_gateway(self, nat_gateway_id): return self.nat_gateways.pop(nat_gateway_id) class LaunchTemplateVersion(object): def __init__(self, template, number, data, description): self.template = template self.number = number self.data = data self.description = description self.create_time = utc_date_and_time() @property def image_id(self): return self.data.get("ImageId", "") @property def instance_type(self): return self.data.get("InstanceType", "") @property def security_groups(self): return self.data.get("SecurityGroups", []) @property def user_data(self): return self.data.get("UserData", "") class LaunchTemplate(TaggedEC2Resource): def __init__(self, backend, name, template_data, version_description): self.ec2_backend = backend self.name = name self.id = random_launch_template_id() self.create_time = utc_date_and_time() self.versions = [] self.create_version(template_data, version_description) self.default_version_number = 1 def create_version(self, data, description): num = len(self.versions) + 1 version = LaunchTemplateVersion(self, num, data, description) self.versions.append(version) return version def is_default(self, version): return self.default_version == version.number def get_version(self, num): return self.versions[num - 1] def default_version(self): return self.versions[self.default_version_number - 1] def latest_version(self): return self.versions[-1] @property def latest_version_number(self): return self.latest_version().number def get_filter_value(self, filter_name): if filter_name == "launch-template-name": return self.name else: return super(LaunchTemplate, self).get_filter_value( filter_name, "DescribeLaunchTemplates" ) class LaunchTemplateBackend(object): def __init__(self): self.launch_template_name_to_ids = {} self.launch_templates = OrderedDict() self.launch_template_insert_order = [] super(LaunchTemplateBackend, self).__init__() def create_launch_template(self, name, description, template_data): if name in self.launch_template_name_to_ids: raise InvalidLaunchTemplateNameError() template = LaunchTemplate(self, name, template_data, description) self.launch_templates[template.id] = template self.launch_template_name_to_ids[template.name] = template.id self.launch_template_insert_order.append(template.id) return template def get_launch_template(self, template_id): return self.launch_templates[template_id] def get_launch_template_by_name(self, name): return self.get_launch_template(self.launch_template_name_to_ids[name]) def describe_launch_templates( self, template_names=None, template_ids=None, filters=None ): if template_names and not template_ids: template_ids = [] for name in template_names: template_ids.append(self.launch_template_name_to_ids[name]) if template_ids: templates = [self.launch_templates[tid] for tid in template_ids] else: templates = list(self.launch_templates.values()) return generic_filter(filters, templates) class IamInstanceProfileAssociation(CloudFormationModel): def __init__(self, ec2_backend, association_id, instance, iam_instance_profile): self.ec2_backend = ec2_backend self.id = association_id self.instance = instance self.iam_instance_profile = iam_instance_profile self.state = "associated" class IamInstanceProfileAssociationBackend(object): def __init__(self): self.iam_instance_profile_associations = {} super(IamInstanceProfileAssociationBackend, self).__init__() def associate_iam_instance_profile( self, instance_id, iam_instance_profile_name=None, iam_instance_profile_arn=None, ): iam_association_id = random_iam_instance_profile_association_id() instance_profile = filter_iam_instance_profiles( iam_instance_profile_arn, iam_instance_profile_name ) if instance_id in self.iam_instance_profile_associations.keys(): raise IncorrectStateIamProfileAssociationError(instance_id) iam_instance_profile_associations = IamInstanceProfileAssociation( self, iam_association_id, self.get_instance(instance_id) if instance_id else None, instance_profile, ) # Regarding to AWS there can be only one association with ec2. self.iam_instance_profile_associations[ instance_id ] = iam_instance_profile_associations return iam_instance_profile_associations def describe_iam_instance_profile_associations( self, association_ids, filters=None, max_results=100, next_token=None ): associations_list = [] if association_ids: for association in self.iam_instance_profile_associations.values(): if association.id in association_ids: associations_list.append(association) else: # That's mean that no association id were given. Showing all. associations_list.extend(self.iam_instance_profile_associations.values()) associations_list = filter_iam_instance_profile_associations( associations_list, filters ) starting_point = int(next_token or 0) ending_point = starting_point + int(max_results or 100) associations_page = associations_list[starting_point:ending_point] new_next_token = ( str(ending_point) if ending_point < len(associations_list) else None ) return associations_page, new_next_token def disassociate_iam_instance_profile(self, association_id): iam_instance_profile_associations = None for association_key in self.iam_instance_profile_associations.keys(): if ( self.iam_instance_profile_associations[association_key].id == association_id ): iam_instance_profile_associations = self.iam_instance_profile_associations[ association_key ] del self.iam_instance_profile_associations[association_key] # Deleting once and avoiding `RuntimeError: dictionary changed size during iteration` break if not iam_instance_profile_associations: raise InvalidAssociationIDIamProfileAssociationError(association_id) return iam_instance_profile_associations def replace_iam_instance_profile_association( self, association_id, iam_instance_profile_name=None, iam_instance_profile_arn=None, ): instance_profile = filter_iam_instance_profiles( iam_instance_profile_arn, iam_instance_profile_name ) iam_instance_profile_association = None for association_key in self.iam_instance_profile_associations.keys(): if ( self.iam_instance_profile_associations[association_key].id == association_id ): self.iam_instance_profile_associations[ association_key ].iam_instance_profile = instance_profile iam_instance_profile_association = self.iam_instance_profile_associations[ association_key ] break if not iam_instance_profile_association: raise InvalidAssociationIDIamProfileAssociationError(association_id) return iam_instance_profile_association class EC2Backend( BaseBackend, InstanceBackend, InstanceTypeBackend, InstanceTypeOfferingBackend, TagBackend, EBSBackend, RegionsAndZonesBackend, SecurityGroupBackend, AmiBackend, VPCBackend, ManagedPrefixListBackend, SubnetBackend, SubnetRouteTableAssociationBackend, FlowLogsBackend, NetworkInterfaceBackend, VPNConnectionBackend, VPCPeeringConnectionBackend, RouteTableBackend, RouteBackend, InternetGatewayBackend, EgressOnlyInternetGatewayBackend, VPCGatewayAttachmentBackend, SpotFleetBackend, SpotRequestBackend, ElasticAddressBackend, KeyPairBackend, DHCPOptionsSetBackend, NetworkAclBackend, VpnGatewayBackend, CustomerGatewayBackend, NatGatewayBackend, TransitGatewayBackend, TransitGatewayRouteTableBackend, TransitGatewayAttachmentBackend, TransitGatewayRelationsBackend, LaunchTemplateBackend, IamInstanceProfileAssociationBackend, ): def __init__(self, region_name): self.region_name = region_name super(EC2Backend, self).__init__() # Default VPC exists by default, which is the current behavior # of EC2-VPC. See for detail: # # docs.aws.amazon.com/AmazonVPC/latest/UserGuide/default-vpc.html # if not self.vpcs: vpc = self.create_vpc("172.31.0.0/16") else: # For now this is included for potential # backward-compatibility issues vpc = self.vpcs.values()[0] # Create default subnet for each availability zone ip, _ = vpc.cidr_block.split("/") ip = ip.split(".") ip[2] = 0 for zone in self.describe_availability_zones(): az_name = zone.name cidr_block = ".".join(str(i) for i in ip) + "/20" self.create_subnet(vpc.id, cidr_block, availability_zone=az_name) ip[2] += 16 def reset(self): region_name = self.region_name self.__dict__ = {} self.__init__(region_name) # Use this to generate a proper error template response when in a response # handler. def raise_error(self, code, message): raise EC2ClientError(code, message) def raise_not_implemented_error(self, blurb): raise MotoNotImplementedError(blurb) def do_resources_exist(self, resource_ids): for resource_id in resource_ids: resource_prefix = get_prefix(resource_id) if resource_prefix == EC2_RESOURCE_TO_PREFIX["customer-gateway"]: self.get_customer_gateway(customer_gateway_id=resource_id) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["dhcp-options"]: self.describe_dhcp_options(options_ids=[resource_id]) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["image"]: self.describe_images(ami_ids=[resource_id]) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["instance"]: self.get_instance_by_id(instance_id=resource_id) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["internet-gateway"]: self.describe_internet_gateways(internet_gateway_ids=[resource_id]) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["launch-template"]: self.get_launch_template(resource_id) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["network-acl"]: self.get_all_network_acls() elif resource_prefix == EC2_RESOURCE_TO_PREFIX["network-interface"]: self.describe_network_interfaces( filters={"network-interface-id": resource_id} ) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["reserved-instance"]: self.raise_not_implemented_error("DescribeReservedInstances") elif resource_prefix == EC2_RESOURCE_TO_PREFIX["route-table"]: self.get_route_table(route_table_id=resource_id) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["security-group"]: self.describe_security_groups(group_ids=[resource_id]) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["snapshot"]: self.get_snapshot(snapshot_id=resource_id) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["spot-instance-request"]: self.describe_spot_instance_requests( filters={"spot-instance-request-id": resource_id} ) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["subnet"]: self.get_subnet(subnet_id=resource_id) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["volume"]: self.get_volume(volume_id=resource_id) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["vpc"]: self.get_vpc(vpc_id=resource_id) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["vpc-peering-connection"]: self.get_vpc_peering_connection(vpc_pcx_id=resource_id) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["vpn-connection"]: self.describe_vpn_connections(vpn_connection_ids=[resource_id]) elif resource_prefix == EC2_RESOURCE_TO_PREFIX["vpn-gateway"]: self.get_vpn_gateway(vpn_gateway_id=resource_id) elif ( resource_prefix == EC2_RESOURCE_TO_PREFIX["iam-instance-profile-association"] ): self.describe_iam_instance_profile_associations( association_ids=[resource_id] ) return True ec2_backends = { region.name: EC2Backend(region.name) for region in RegionsAndZonesBackend.regions }