Exemplo n.º 1
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 def _create_tables(self):
     self.movies_table = Table(
         self,
         "movies_table",
         table_name="movies",
         partition_key=Attribute(name="id", type=AttributeType.STRING),
         billing_mode=BillingMode.PAY_PER_REQUEST,
     )
     self.movies_table.add_global_secondary_index(
         partition_key=Attribute(name="tmdb_id", type=AttributeType.NUMBER),
         index_name="tmdb_id"
     )
Exemplo n.º 2
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    def __init__(self, scope: core.Construct, id: str, **kwargs) -> None:
        super().__init__(scope, id, **kwargs)

        # DynamoDB
        table = Table(
            self,
            "DynamoTableTable",
            partition_key=Attribute(name="pk",
                                    type=AttributeType.NUMBER),  # パーテーションキー
            sort_key=Attribute(name="sk", type=AttributeType.STRING),  # ソートキー
            billing_mode=BillingMode.PAY_PER_REQUEST,  # オンデマンドに設定
            removal_policy=core.RemovalPolicy.
            DESTROY,  # Stackの削除と一緒にテーブルを削除する(オプション)
        )
Exemplo n.º 3
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    def create_deploy_status_table(self) -> Resource:
        """コンポーネントの作成状況を保持するテーブル

        Table Schema
        * Partition_key
            * component_name
        * Sort_key
            * version
        * Item
            * bucket
            * s3_path
            * component_arn
            * pipeline_status
                * image_creating: コンテナイメージをビルド中
                * image_faild: コンテナイメージの作成に失敗
                * image_exists: コンテナイメージが存在する
                * component_exists: GGのコンポーネントが存在する
                * component_faild: 何らかの理由でコンポーネントの登録に失敗した
                * create_deployment: 
            * update_time
            * deployment_status 
                * IN_PROGRESS
                * ACTIVE
                * CANCELLED
            * deploy_group
            * job_id

        Returns:
            Resource: DynamoDB Table
        """
        table_name = f"{self.stack_name}_{self.component_id}_" + "deploy_status"
        table = Table(
            self,
            id=table_name,
            table_name=table_name,
            partition_key=Attribute(name="component_name",
                                    type=AttributeType.STRING),  # パーテーションキー
            sort_key=Attribute(name="version",
                               type=AttributeType.STRING),  # ソートキー
            removal_policy=RemovalPolicy.
            DESTROY,  # Stackの削除と一緒にテーブルを削除する(オプション)
        )

        return table
Exemplo n.º 4
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    def __init__(self, scope: Construct, construct_id: str, **kwargs) -> None:
        super().__init__(scope, construct_id, **kwargs)

        table_name = "posts2"
        function_name = "cl2"
        email = "*****@*****.**"

        table = Table(
            self,
            "cl_posts",
            table_name=table_name,
            partition_key=Attribute(name="url", type=AttributeType.STRING),
            time_to_live_attribute="ttl",
        )

        function = PythonFunction(
            self,
            "cl_function",
            function_name=function_name,
            entry="src",
            index="app.py",
            runtime=Runtime.PYTHON_3_8,
            environment={
                "cl_email": email,
                "cl_table_name": table_name
            },
            timeout=Duration.seconds(300),
            initial_policy=[
                PolicyStatement(
                    actions=["ses:SendEmail", "ses:VerifyEmailIdentity"],
                    resources=[
                        f"arn:aws:ses:{self.region}:{self.account}:identity/{email}"
                    ],
                ),
                PolicyStatement(
                    actions=[
                        "dynamodb:BatchGetItem", "dynamodb:BatchWriteItem"
                    ],
                    resources=[table.table_arn],
                ),
            ],
        )

        with open("events/event.json") as f:
            event = json.load(f)

        Rule(
            self,
            "cl_schedule",
            schedule=Schedule.expression("cron(0 19 * * ? *)"),
            targets=[
                LambdaFunction(function,
                               event=RuleTargetInput.from_object(event))
            ],
        )
Exemplo n.º 5
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 def __init__(self, scope: Construct, id: str, table_name: str) -> None:
     super().__init__(scope, id)
     primary_key = Attribute(name="id", type=AttributeType.STRING)
     self.table = Table(
         self,
         "SmolTable",
         billing_mode=BillingMode.PAY_PER_REQUEST,
         partition_key=primary_key,
         point_in_time_recovery=True,
         table_name=table_name,
     )
Exemplo n.º 6
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    def _create_tables(self):
        self.shows_table = Table(
            self,
            "shows_table",
            table_name="shows",
            partition_key=Attribute(name="id", type=AttributeType.STRING),
            billing_mode=BillingMode.PAY_PER_REQUEST,
        )
        self.shows_table.add_global_secondary_index(partition_key=Attribute(
            name="tvmaze_id", type=AttributeType.NUMBER),
                                                    index_name="tvmaze_id")

        self.episodes_table = Table(
            self,
            "episodes_table",
            table_name="shows-eps",
            partition_key=Attribute(name="show_id", type=AttributeType.STRING),
            sort_key=Attribute(name="id", type=AttributeType.STRING),
            billing_mode=BillingMode.PAY_PER_REQUEST,
        )
        self.episodes_table.add_local_secondary_index(sort_key=Attribute(
            name="id", type=AttributeType.STRING),
                                                      index_name="episode_id")
        self.episodes_table.add_global_secondary_index(partition_key=Attribute(
            name="tvmaze_id", type=AttributeType.NUMBER),
                                                       index_name="tvmaze_id")
Exemplo n.º 7
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    def __init__(self, scope: core.Construct, id: str, **kwargs) -> None:
        super().__init__(scope, id, **kwargs)

        # =======> DynamoDB

        gsi_name = "HogeGSI"

        table = Table(
            self,
            "DynamoTableGsiTable",
            partition_key=Attribute(name="pk", type=AttributeType.NUMBER),
            sort_key=Attribute(name="sk", type=AttributeType.STRING),
            removal_policy=core.RemovalPolicy.DESTROY,
        )

        table.add_global_secondary_index(
            index_name=gsi_name,
            partition_key=Attribute(name="gsi_pk", type=AttributeType.NUMBER),
            sort_key=Attribute(name="gsi_sk", type=AttributeType.STRING),
            projection_type=ProjectionType.KEYS_ONLY,
        )

        # =======> Lambda

        lambda_ = aws_lambda.Function(
            self,
            "LambdaDynamoTableGsi",
            code=aws_lambda.Code.asset("lambdas/dynamo_table_gsi"),
            runtime=aws_lambda.Runtime.PYTHON_3_8,
            handler="lambda_function.lambda_handler",
            environment={
                "TABLE_NAME": table.table_name,
                "GSI_NAME": gsi_name
            },
        )
        table.grant_read_data(lambda_)  # これがあればGSIに読み込み権限が付与される
Exemplo n.º 8
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    def __init__(self, scope: cdk.Construct, construct_id: str,
                 db_context: str, **kwargs) -> None:
        super().__init__(scope, construct_id)

        # setting the db context
        db = dict(self.node.try_get_context(db_context))

        # Shortening some of the logic
        billing_mode = BillingMode.PROVISIONED if db[
            "db_billing_mode"] == "provisioned" else BillingMode.PAY_PER_REQUEST
        pk = db["db_table_pk"]
        pk_type = AttributeType.STRING if db[
            "db_table_pk_type"] == "string" else AttributeType.NUMBER

        table = Table(
            self,
            db["db_table"],
            table_name=db["db_table"],
            partition_key=Attribute(name=pk, type=pk_type),
            read_capacity=db["db_min_read_capacity"],
            write_capacity=db["db_min_write_capacity"],
            encryption=_ddb.TableEncryption.AWS_MANAGED,
            point_in_time_recovery=True,
            removal_policy=cdk.RemovalPolicy.DESTROY,
            billing_mode=billing_mode,
            time_to_live_attribute=db["db_ttl_attribute"],
        )

        # Add read/write autoscaling enabled at X% utilization
        if db["db_billing_mode"] == "provisioned" and db[
                "db_enable_autoscaling"]:
            read_scaling = table.auto_scale_read_capacity(
                min_capacity=db["db_min_read_capacity"],
                max_capacity=db["db_max_read_capacity"],
            )

            read_scaling.scale_on_utilization(
                target_utilization_percent=db["db_target_utilization"], )
            write_scaling = table.auto_scale_write_capacity(
                min_capacity=db["db_min_write_capacity"],
                max_capacity=db["db_max_write_capacity"],
            )
            write_scaling.scale_on_utilization(
                target_utilization_percent=db["db_target_utilization"], )

        self.table = table
Exemplo n.º 9
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    def _create_tables(self):
        self.anime_table = Table(
            self,
            "anime_items",
            partition_key=Attribute(name="id", type=AttributeType.STRING),
            billing_mode=BillingMode.PAY_PER_REQUEST,
        )
        self.anime_table.add_global_secondary_index(
            partition_key=Attribute(name="mal_id", type=AttributeType.NUMBER),
            index_name="mal_id"
        )
        self.anime_table.add_global_secondary_index(
            partition_key=Attribute(name="broadcast_day", type=AttributeType.STRING),
            index_name="broadcast_day"
        )

        self.anime_episodes = Table(
            self,
            "anime_episodes",
            partition_key=Attribute(name="anime_id", type=AttributeType.STRING),
            sort_key=Attribute(name="episode_number", type=AttributeType.NUMBER),
            billing_mode=BillingMode.PAY_PER_REQUEST,
        )
        self.anime_episodes.add_local_secondary_index(
            sort_key=Attribute(name="id", type=AttributeType.STRING),
            index_name="episode_id"
        )
        self.anime_episodes.add_global_secondary_index(
            partition_key=Attribute(name="anidb_id", type=AttributeType.NUMBER),
            index_name="anidb_id"
        )

        self.anime_params = Table(
            self,
            "anime_params",
            partition_key=Attribute(name="name", type=AttributeType.STRING),
            billing_mode=BillingMode.PAY_PER_REQUEST,
        )
Exemplo n.º 10
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    def __init__(self, scope: Stack):
        super().__init__(scope=scope, id=f"TestingStack", stack_name=f"TestingStack")

        table = Table(
            scope=self,
            id="TestingTable",
            partition_key=Attribute(name="id", type=AttributeType.STRING),
            stream=StreamViewType.NEW_IMAGE,
            removal_policy=RemovalPolicy.DESTROY,
        )

        domain = Domain(
            scope=self,
            id="TestingElasticsearchDomain",
            version=ElasticsearchVersion.V7_7,
            capacity=CapacityConfig(
                # Use the cheapest instance available.
                data_node_instance_type="t3.small.elasticsearch",
                data_nodes=1,
                master_nodes=None,
            ),
            zone_awareness=ZoneAwarenessConfig(enabled=False),
            ebs=EbsOptions(enabled=True, volume_size=10, volume_type=EbsDeviceVolumeType.GP2),
        )

        elasticsearch_index = ElasticsearchIndexResource(
            scope=self,
            name="TestingElasticsearchIndex",
            elasticsearch_domain=domain,
            index_prefix="testing_index",
        )

        elasticsearch_cloner = ElasticsearchCloner(
            scope=self,
            id="TestingElasticsearchCloner",
            elasticsearch_index=elasticsearch_index,
            dynamodb_table=table,
        )
    def __init__(self, scope: core.Construct, construct_id: str, **kwargs) -> None:
        super().__init__(scope, construct_id, **kwargs)

        # The code that defines your stack goes here
        table_name = "trainers"

        trainers_graphql_api = CfnGraphQLApi(
            self,'trainersApi',
            name="trainers-api",
            authentication_type='API_KEY'
        )
        
        CfnApiKey(
            self,'TrainersApiKey',
            api_id = trainers_graphql_api.attr_api_id

        )

        api_schema = CfnGraphQLSchema(
            self,"TrainersSchema",
            api_id = trainers_graphql_api.attr_api_id,
            definition=data_schema
        )

        trainers_table = Table(
            self, 'TrainersTable',
            table_name=table_name,
            partition_key=Attribute(
                name='id',
                type=AttributeType.STRING,

            ),

        
            billing_mode=BillingMode.PAY_PER_REQUEST,
            stream=StreamViewType.NEW_IMAGE,

            # The default removal policy is RETAIN, which means that cdk
            # destroy will not attempt to delete the new table, and it will
            # remain in your account until manually deleted. By setting the
            # policy to DESTROY, cdk destroy will delete the table (even if it
            # has data in it)
            removal_policy=core.RemovalPolicy.DESTROY  # NOT recommended for production code
        )

        trainers_table_role = Role(
            self, 'TrainersDynamoDBRole',
            assumed_by=ServicePrincipal('appsync.amazonaws.com')
        )

        trainers_table_role.add_managed_policy(
            ManagedPolicy.from_aws_managed_policy_name(
                'AmazonDynamoDBFullAccess'
            )
        )

        data_source = CfnDataSource(
            self, 'TrainersDataSource',
            api_id=trainers_graphql_api.attr_api_id,
            name='TrainersDynamoDataSource',
            type='AMAZON_DYNAMODB',
            dynamo_db_config=CfnDataSource.DynamoDBConfigProperty(
                table_name=trainers_table.table_name,
                aws_region=self.region
            ),
            service_role_arn=trainers_table_role.role_arn
        )

        get_Trainer_resolver = CfnResolver(
            self, 'GetOneQueryResolver',
            api_id=trainers_graphql_api.attr_api_id,
            type_name='Query',
            field_name='getTrainer',
            data_source_name=data_source.name,
            request_mapping_template=get_trainer,
            response_mapping_template="$util.toJson($ctx.result)"
        )

        get_Trainer_resolver.add_depends_on(api_schema)

        get_all_trainers_resolver = CfnResolver(
            self, 'GetAllQueryResolver',
            api_id=trainers_graphql_api.attr_api_id,
            type_name='Query',
            field_name='allTrainers',
            data_source_name=data_source.name,
            request_mapping_template=all_trainers,
            response_mapping_template="$util.toJson($ctx.result)"
        )

        get_all_trainers_resolver.add_depends_on(api_schema)
     
        create_trainers_resolver = CfnResolver(
            self, 'CreateTrainerMutationResolver',
            api_id=trainers_graphql_api.attr_api_id,
            type_name='Mutation',
            field_name='createTrainer',
            data_source_name=data_source.name,
            request_mapping_template=create_trainer,
            response_mapping_template="$util.toJson($ctx.result)"
        )

        create_trainers_resolver.add_depends_on(api_schema)

        update_trainers_resolver = CfnResolver(
            self,'UpdateMutationResolver',
            api_id=trainers_graphql_api.attr_api_id,
            type_name="Mutation",
            field_name="updateTrainers",
            data_source_name=data_source.name,
            request_mapping_template=update_trainer,
            response_mapping_template="$util.toJson($ctx.result)"
        )
        update_trainers_resolver.add_depends_on(api_schema)

        delete_trainer_resolver = CfnResolver(
            self, 'DeleteMutationResolver',
            api_id=trainers_graphql_api.attr_api_id,
            type_name='Mutation',
            field_name='deleteTrainer',
            data_source_name=data_source.name,
            request_mapping_template=delete_trainer,
            response_mapping_template="$util.toJson($ctx.result)"
        )
#core
        delete_trainer_resolver.add_depends_on(api_schema)
Exemplo n.º 12
0
    def __init__(self, scope: core.Construct, id: str, **kwargs) -> None:
        super().__init__(scope, id, **kwargs)

        table_name = 'items'

        items_graphql_api = CfnGraphQLApi(self,
                                          'ItemsApi',
                                          name='items-api',
                                          authentication_type='API_KEY')

        CfnApiKey(self, 'ItemsApiKey', api_id=items_graphql_api.attr_api_id)

        api_schema = CfnGraphQLSchema(self,
                                      'ItemsSchema',
                                      api_id=items_graphql_api.attr_api_id,
                                      definition=f"""\
                type {table_name} {{
                    {table_name}Id: ID!
                    name: String
                }}
                type Paginated{table_name} {{
                    items: [{table_name}!]!
                    nextToken: String
                }}
                type Query {{
                    all(limit: Int, nextToken: String): Paginated{table_name}!
                    getOne({table_name}Id: ID!): {table_name}
                }}
                type Mutation {{
                    save(name: String!): {table_name}
                    delete({table_name}Id: ID!): {table_name}
                }}
                type Schema {{
                    query: Query
                    mutation: Mutation
                }}""")

        items_table = Table(
            self,
            'ItemsTable',
            table_name=table_name,
            partition_key=Attribute(name=f'{table_name}Id',
                                    type=AttributeType.STRING),
            billing_mode=BillingMode.PAY_PER_REQUEST,
            stream=StreamViewType.NEW_IMAGE,

            # The default removal policy is RETAIN, which means that cdk
            # destroy will not attempt to delete the new table, and it will
            # remain in your account until manually deleted. By setting the
            # policy to DESTROY, cdk destroy will delete the table (even if it
            # has data in it)
            removal_policy=core.RemovalPolicy.
            DESTROY  # NOT recommended for production code
        )

        items_table_role = Role(
            self,
            'ItemsDynamoDBRole',
            assumed_by=ServicePrincipal('appsync.amazonaws.com'))

        items_table_role.add_managed_policy(
            ManagedPolicy.from_aws_managed_policy_name(
                'AmazonDynamoDBFullAccess'))

        data_source = CfnDataSource(
            self,
            'ItemsDataSource',
            api_id=items_graphql_api.attr_api_id,
            name='ItemsDynamoDataSource',
            type='AMAZON_DYNAMODB',
            dynamo_db_config=CfnDataSource.DynamoDBConfigProperty(
                table_name=items_table.table_name, aws_region=self.region),
            service_role_arn=items_table_role.role_arn)

        get_one_resolver = CfnResolver(
            self,
            'GetOneQueryResolver',
            api_id=items_graphql_api.attr_api_id,
            type_name='Query',
            field_name='getOne',
            data_source_name=data_source.name,
            request_mapping_template=f"""\
            {{
                "version": "2017-02-28",
                "operation": "GetItem",
                "key": {{
                "{table_name}Id": $util.dynamodb.toDynamoDBJson($ctx.args.{table_name}Id)
                }}
            }}""",
            response_mapping_template="$util.toJson($ctx.result)")

        get_one_resolver.add_depends_on(api_schema)

        get_all_resolver = CfnResolver(
            self,
            'GetAllQueryResolver',
            api_id=items_graphql_api.attr_api_id,
            type_name='Query',
            field_name='all',
            data_source_name=data_source.name,
            request_mapping_template=f"""\
            {{
                "version": "2017-02-28",
                "operation": "Scan",
                "limit": $util.defaultIfNull($ctx.args.limit, 20),
                "nextToken": $util.toJson($util.defaultIfNullOrEmpty($ctx.args.nextToken, null))
            }}""",
            response_mapping_template="$util.toJson($ctx.result)")

        get_all_resolver.add_depends_on(api_schema)

        save_resolver = CfnResolver(
            self,
            'SaveMutationResolver',
            api_id=items_graphql_api.attr_api_id,
            type_name='Mutation',
            field_name='save',
            data_source_name=data_source.name,
            request_mapping_template=f"""\
            {{
                "version": "2017-02-28",
                "operation": "PutItem",
                "key": {{
                    "{table_name}Id": {{ "S": "$util.autoId()" }}
                }},
                "attributeValues": {{
                    "name": $util.dynamodb.toDynamoDBJson($ctx.args.name)
                }}
            }}""",
            response_mapping_template="$util.toJson($ctx.result)")

        save_resolver.add_depends_on(api_schema)

        delete_resolver = CfnResolver(
            self,
            'DeleteMutationResolver',
            api_id=items_graphql_api.attr_api_id,
            type_name='Mutation',
            field_name='delete',
            data_source_name=data_source.name,
            request_mapping_template=f"""\
            {{
                "version": "2017-02-28",
                "operation": "DeleteItem",
                "key": {{
                "{table_name}Id": $util.dynamodb.toDynamoDBJson($ctx.args.{table_name}Id)
                }}
            }}""",
            response_mapping_template="$util.toJson($ctx.result)")

        delete_resolver.add_depends_on(api_schema)
Exemplo n.º 13
0
    def __init__(self, scope: core.Construct, id: str, **kwargs) -> None:
        super().__init__(scope, id, **kwargs)

        self.prefix = ('infra-smartnumbers').lower()
        self.root_dir = str(Path(__file__).parents[1])
        print(self.root_dir)
        self.log_retention = aws_logs.RetentionDays.ONE_WEEK

        # ////////////////////////////////////////////////////////////////////////////////////////////
        """ S3 Buckets """

        # output bucket
        bucket_name = self.prefix + '-output-bucket'
        output_bucket = s3.Bucket(self,
                                  bucket_name,
                                  bucket_name=bucket_name,
                                  removal_policy=core.RemovalPolicy.DESTROY)

        # ////////////////////////////////////////////////////////////////////////////////////////////
        """ Dynamo Tables """
        self.tables = []

        calls_table_name = self.prefix + '-calls'
        calls_table = ddb.Table(self,
                                calls_table_name,
                                table_name=calls_table_name,
                                partition_key=Attribute(
                                    name="id", type=AttributeType.STRING),
                                sort_key=Attribute(name="number",
                                                   type=AttributeType.STRING),
                                removal_policy=core.RemovalPolicy.DESTROY,
                                billing_mode=ddb.BillingMode.PAY_PER_REQUEST)
        self.tables.append(calls_table_name)

        operators_table_name = self.prefix + '-operators'
        operators_table = ddb.Table(
            self,
            operators_table_name,
            table_name=operators_table_name,
            partition_key=Attribute(name="id", type=AttributeType.STRING),
            sort_key=Attribute(name="prefix", type=AttributeType.STRING),
            removal_policy=core.RemovalPolicy.DESTROY,
            billing_mode=ddb.BillingMode.PAY_PER_REQUEST)
        self.tables.append(operators_table_name)

        # ////////////////////////////////////////////////////////////////////////////////////////////
        """ Lambdas """
        self.lambdas = []

        api_receiver_lambda = create_lambda(self, 'api_receiver')
        self.lambdas.append(api_receiver_lambda)
        calls_table.grant_read_write_data(api_receiver_lambda)
        operators_table.grant_read_write_data(api_receiver_lambda)

        matcher_call_operator_lambda = create_lambda(self,
                                                     'matcher_call_operator')
        self.lambdas.append(matcher_call_operator_lambda)
        calls_table.grant_read_write_data(matcher_call_operator_lambda)
        operators_table.grant_read_data(matcher_call_operator_lambda)
        output_bucket.grant_read_write(matcher_call_operator_lambda)

        # ////////////////////////////////////////////////////////////////////////////////////////////
        """ API Gateways """

        api_endpoint = apigw.LambdaRestApi(self,
                                           self.prefix + '-gateway',
                                           handler=api_receiver_lambda,
                                           proxy=False)

        apigateway_integration_input = apigw.LambdaIntegration(
            api_receiver_lambda)
        apigateway_endpoint_input = api_endpoint.root.add_resource(
            'input_data')
        apigateway_endpoint_input.add_method('POST',
                                             apigateway_integration_input)

        apigateway_integration_input = apigw.LambdaIntegration(
            matcher_call_operator_lambda)
        apigateway_endpoint_trigger = api_endpoint.root.add_resource(
            'event_trigger')
        apigateway_endpoint_trigger.add_method('POST',
                                               apigateway_integration_input)
    def __init__(self, scope: core.Construct, id: str, **kwargs) -> None:
        super().__init__(scope, id, **kwargs)

        # SQS queue
        state_change_sqs = Queue(
            self,
            "state_change_sqs",
            visibility_timeout=core.Duration.seconds(60)
        )

        # Dynamodb Tables
        # EC2 state changes
        tb_states = Table(
            self, "ec2_states", partition_key=Attribute(name="instance-id",
                type=AttributeType.STRING),
            sort_key=Attribute(
                name="time",
                type=AttributeType.STRING
            ),
            billing_mode=BillingMode.PAY_PER_REQUEST,
            removal_policy=core.RemovalPolicy.DESTROY,
            stream=StreamViewType.NEW_IMAGE)

        # EC2 inventory
        tb_inventory = Table(
            self, "ec2_inventory", partition_key=Attribute(name="instance-id",
                type=AttributeType.STRING),
            sort_key=Attribute(
                name="time",
                type=AttributeType.STRING
            ),
            billing_mode=BillingMode.PAY_PER_REQUEST,
            removal_policy=core.RemovalPolicy.DESTROY,
            stream=StreamViewType.KEYS_ONLY)

        # IAM policies - AWS managed
        basic_exec = ManagedPolicy.from_aws_managed_policy_name("service-role/AWSLambdaBasicExecutionRole")
        sqs_access = ManagedPolicy(self, "LambdaSQSExecution",
            statements=[
                PolicyStatement(
                    effect=Effect.ALLOW,
                    actions=[
                        "sqs:ReceiveMessage",
                        "sqs:DeleteMessage",
                        "sqs:GetQueueAttributes"
                    ],
                    resources=[state_change_sqs.queue_arn]
                )])

        # IAM Policies
        pol_ec2_states_ro = ManagedPolicy(self, "pol_EC2StatesReadOnly",
            statements=[
                PolicyStatement(
                    effect=Effect.ALLOW,
                    actions=[
                        "dynamodb:DescribeStream",
                        "dynamodb:GetRecords",
                        "dynamodb:GetItem",
                        "dynamodb:GetShardIterator",
                        "dynamodb:ListStreams"
                    ],
                    resources=[tb_states.table_arn]
                )])

        pol_ec2_states_rwd = ManagedPolicy(
            self, "pol_EC2StatesWriteDelete",
            statements=[
                PolicyStatement(
                    effect=Effect.ALLOW,
                    actions=[
                        "dynamodb:DeleteItem",
                        "dynamodb:DescribeTable",
                        "dynamodb:PutItem",
                        "dynamodb:Query",
                        "dynamodb:UpdateItem"
                    ],
                    resources=[tb_states.table_arn]
                )])

        pol_ec2_inventory_full = ManagedPolicy(
            self, "pol_EC2InventoryFullAccess",
            statements=[
                PolicyStatement(
                    effect=Effect.ALLOW,
                    actions=[
                        "dynamodb:DeleteItem",
                        "dynamodb:DescribeTable",
                        "dynamodb:GetItem",
                        "dynamodb:PutItem",
                        "dynamodb:Query",
                        "dynamodb:UpdateItem"
                    ],
                    resources=[tb_inventory.table_arn]
                )])
        
        pol_lambda_describe_ec2 = ManagedPolicy(
            self, "pol_LambdaDescribeEC2",
            statements=[
                PolicyStatement(
                    effect=Effect.ALLOW,
                    actions=[
                        "ec2:Describe*"
                    ],
                    resources=["*"]
                )])

        # IAM Roles
        rl_event_capture = Role(
            self,
            'rl_state_capture',
            assumed_by=ServicePrincipal('lambda.amazonaws.com'),
            managed_policies=[basic_exec, sqs_access, pol_ec2_states_rwd]
            )

        rl_event_processor = Role(
            self,
            'rl_state_processor',
            assumed_by=ServicePrincipal('lambda.amazonaws.com'),
            managed_policies=[
                basic_exec,
                pol_ec2_states_ro,
                pol_ec2_states_rwd,
                pol_ec2_inventory_full,
                pol_lambda_describe_ec2])

        # event capture lambda
        lambda_event_capture = Function(
            self, "lambda_event_capture",
            handler="event_capture.handler",
            runtime=Runtime.PYTHON_3_7,
            code=Code.asset('event_capture'),
            role=rl_event_capture,
            events=[SqsEventSource(state_change_sqs)],
            environment={"state_table": tb_states.table_name}
        )

        # event processor lambda
        lambda_event_processor = Function(
            self, "lambda_event_processor",
            handler="event_processor.handler",
            runtime=Runtime.PYTHON_3_7,
            code=Code.asset('event_processor'),
            role=rl_event_processor,
            events=[
                DynamoEventSource(
                    tb_states,
                    starting_position=StartingPosition.LATEST)
            ],
            environment={
                "inventory_table": tb_inventory.table_name,
                }
        )

        # Cloudwatch Event
        event_ec2_change = Rule(
            self, "ec2_state_change",
            description="trigger on ec2 start, stop and terminate instances",
            event_pattern=EventPattern(
                source=["aws.ec2"],
                detail_type=["EC2 Instance State-change Notification"],
                detail={
                    "state": [
                        "running",
                        "stopped",
                        "terminated"]
                    }
                ),
            targets=[aws_events_targets.SqsQueue(state_change_sqs)]
        )

        # Outputs
        core.CfnOutput(self, "rl_state_capture_arn", value=rl_event_capture.role_arn)
        core.CfnOutput(self, "rl_state_processor_arn", value=rl_event_processor.role_arn)
        core.CfnOutput(self, "tb_states_arn", value=tb_states.table_arn)
        core.CfnOutput(self, "tb_inventory_arn", value=tb_inventory.table_arn)
        core.CfnOutput(self, "sqs_state_change", value=state_change_sqs.queue_arn)
Exemplo n.º 15
0
    def __init__(self, scope: core.Construct, id: str, **kwargs) -> None:
        super().__init__(scope, id, **kwargs)

        graphql_api = CfnGraphQLApi(self,
                                    'WeatherApi',
                                    name='weather-api',
                                    authentication_type='API_KEY')

        CfnApiKey(self, 'WeatherApiKey', api_id=graphql_api.attr_api_id)

        api_schema = CfnGraphQLSchema(self,
                                      'WeatherSchema',
                                      api_id=graphql_api.attr_api_id,
                                      definition="""
                type Destination {
                    id: ID!
                    description: String!
                    state: String!
                    city: String!
                    zip: String!
                    conditions: Weather!
                }
                        
                type Mutation {
                    addDestination(
                        id: ID,
                        description: String!,
                        state: String!,
                        city: String!,
                        zip: String!
                    ): Destination!
                }
                        
                type Query {
                    getWeather(city: String!): Weather
                    # Get a single value of type 'Post' by primary key.
                    getDestination(id: ID!, zip: String): Destination
                    getAllDestinations: [Destination]
                    getDestinationsByState(state: String!): [Destination]
                }
                        
                type Subscription {
                    newDestination: Destination
                        @aws_subscribe(mutations: ["addDestination"])
                }
                        
                type Weather {
                    description: String
                    current: String
                    maxTemp: String
                    minTemp: String
                }
                        
                schema {
                    query: Query
                    mutation: Mutation
                    subscription: Subscription
                }
            """)

        table_name = 'destinations'

        table = Table(self,
                      'DestinationsTable',
                      table_name=table_name,
                      partition_key=Attribute(
                          name="id",
                          type=AttributeType.STRING,
                      ),
                      billing_mode=BillingMode.PAY_PER_REQUEST,
                      stream=StreamViewType.NEW_IMAGE)

        table_role = Role(self,
                          'DestinationsDynamoDBRole',
                          assumed_by=ServicePrincipal('appsync.amazonaws.com'))

        table_role.add_managed_policy(
            ManagedPolicy.from_aws_managed_policy_name(
                'AmazonDynamoDBFullAccess'))

        data_source = CfnDataSource(
            self,
            'DestinationsDataSource',
            api_id=graphql_api.attr_api_id,
            name='DestinationsDynamoDataSource',
            type='AMAZON_DYNAMODB',
            dynamo_db_config=CfnDataSource.DynamoDBConfigProperty(
                table_name=table.table_name, aws_region=self.region),
            service_role_arn=table_role.role_arn)

        lambdaFn = Function(self,
                            "GetWeather",
                            code=Code.asset(os.getcwd() + "/lambdas/weather/"),
                            handler="weather.get",
                            timeout=core.Duration.seconds(900),
                            memory_size=128,
                            runtime=Runtime.NODEJS_10_X,
                            environment={'APPID': os.getenv('APPID')})

        lambda_role = Role(
            self,
            'WeatherLambdaRole',
            assumed_by=ServicePrincipal('appsync.amazonaws.com'))

        lambda_role.add_managed_policy(
            ManagedPolicy.from_aws_managed_policy_name('AWSLambdaFullAccess'))

        lambda_source = CfnDataSource(
            self,
            'WeatherDataSource',
            api_id=graphql_api.attr_api_id,
            name='WeatherCondition',
            type='AWS_LAMBDA',
            lambda_config=CfnDataSource.LambdaConfigProperty(
                lambda_function_arn=lambdaFn.function_arn),
            service_role_arn=lambda_role.role_arn)

        self.add_resolvers(graphql_api,
                           api_schema,
                           data_source=data_source,
                           lambda_source=lambda_source)
Exemplo n.º 16
0
    def __init__(self, scope: core.Construct, id: str, **kwargs):
        super().__init__(scope, id, **kwargs)

        # The code that defines your stack goes here
        this_dir = path.dirname(__file__)

        handler = lmb.Function(self,
                               'Handler',
                               runtime=lmb.Runtime.PYTHON_3_7,
                               handler='handler.handler',
                               code=lmb.Code.from_asset(
                                   path.join(this_dir, 'lambda')))
        alias = lmb.Alias(self,
                          "HandlerAlias",
                          alias_name="Current",
                          version=handler.current_version)
        gw = apigw.LambdaRestApi(
            self,
            'Gateway',
            description='Endpoint for a singple Lambda-powered web service',
            handler=alias,
            endpoint_types=[EndpointType.REGIONAL])
        failure_alarm = cloudwatch.Alarm(
            self,
            "FailureAlarm",
            alarm_name=self.stack_name + '-' + '500Alarm',
            metric=cloudwatch.Metric(metric_name="5XXError",
                                     namespace="AWS/ApiGateway",
                                     dimensions={
                                         "ApiName": "Gateway",
                                     },
                                     statistic="Sum",
                                     period=core.Duration.minutes(1)),
            threshold=1,
            evaluation_periods=1)

        alarm500topic = sns.Topic(self,
                                  "Alarm500Topic",
                                  topic_name=self.stack_name + '-' +
                                  'Alarm500TopicSNS')
        alarm500topic.add_subscription(
            subscriptions.EmailSubscription("*****@*****.**"))
        failure_alarm.add_alarm_action(cw_actions.SnsAction(alarm500topic))
        codedeploy.LambdaDeploymentGroup(
            self,
            "DeploymentGroup",
            alias=alias,
            deployment_config=codedeploy.LambdaDeploymentConfig.
            CANARY_10_PERCENT_10_MINUTES,
            alarms=[failure_alarm])
        # Create a dynamodb table

        table_name = self.stack_name + '-' + 'HelloCdkTable'
        table = dynamodb.Table(self,
                               "TestTable",
                               table_name=table_name,
                               partition_key=Attribute(
                                   name="id",
                                   type=dynamodb.AttributeType.STRING))
        table_name_id = cr.PhysicalResourceId.of(table.table_name)
        on_create_action = AwsSdkCall(
            action='putItem',
            service='DynamoDB',
            physical_resource_id=table_name_id,
            parameters={
                'Item': {
                    'id': {
                        'S': 'HOLA_CREATE'
                    },
                    'date': {
                        'S': datetime.today().strftime('%Y-%m-%d')
                    },
                    'epoch': {
                        'N': str(int(time.time()))
                    }
                },
                'TableName': table_name
            })
        on_update_action = AwsSdkCall(
            action='putItem',
            service='DynamoDB',
            physical_resource_id=table_name_id,
            parameters={
                'Item': {
                    'id': {
                        'S': 'HOLA_UPDATE'
                    },
                    'date': {
                        'S': datetime.today().strftime('%Y-%m-%d')
                    },
                    'epoch': {
                        'N': str(int(time.time()))
                    }
                },
                'TableName': table_name
            })
        cr.AwsCustomResource(
            self,
            "TestTableCustomResource",
            on_create=on_create_action,
            on_update=on_update_action,
            policy=cr.AwsCustomResourcePolicy.from_sdk_calls(
                resources=cr.AwsCustomResourcePolicy.ANY_RESOURCE))

        # OUTPUT
        self.url_output = core.CfnOutput(self, 'Url', value=gw.url)
Exemplo n.º 17
0
    def __init__(self, scope: core.Construct, id: str, **kwargs) -> None:
        super().__init__(scope, id, **kwargs)

        dynamodb_table = _ddb.Table(
            self,
            id="lab2-cm-ddb",
            table_name="lab2-cm-order-status",
            partition_key=Attribute(name='ID', type=AttributeType.STRING),
            removal_policy=core.RemovalPolicy.DESTROY  # NOT for production
        )

        eb = _eb.EventBus(self,
                          id="lab2-cm-eventbus",
                          event_bus_name="lab2-cm-eventbus")

        lambda_role = _iam.Role(
            self,
            id='lab2-cm-role',
            assumed_by=_iam.ServicePrincipal('lambda.amazonaws.com'))

        dynamodb_policy_statement = _iam.PolicyStatement(
            effect=_iam.Effect.ALLOW)
        dynamodb_policy_statement.add_actions("dynamodb:*")
        dynamodb_policy_statement.add_resources(dynamodb_table.table_arn)
        lambda_role.add_to_policy(dynamodb_policy_statement)

        eventbridge_policy_statement = _iam.PolicyStatement(
            effect=_iam.Effect.ALLOW)
        eventbridge_policy_statement.add_actions("events:*")
        eventbridge_policy_statement.add_resources(eb.event_bus_arn)
        lambda_role.add_to_policy(eventbridge_policy_statement)

        cloudwatch_policy_statement = _iam.PolicyStatement(
            effect=_iam.Effect.ALLOW)
        cloudwatch_policy_statement.add_actions("logs:CreateLogGroup")
        cloudwatch_policy_statement.add_actions("logs:CreateLogStream")
        cloudwatch_policy_statement.add_actions("logs:PutLogEvents")
        cloudwatch_policy_statement.add_actions("logs:DescribeLogStreams")
        cloudwatch_policy_statement.add_resources("*")
        lambda_role.add_to_policy(cloudwatch_policy_statement)

        fn_lambda_invoice_service = aws_lambda.Function(
            self,
            "lab2-cm-invoiceService",
            code=aws_lambda.AssetCode("../lambda-functions/invoice-service/"),
            handler="app.lambda_handler",
            tracing=aws_lambda.Tracing.ACTIVE,
            timeout=core.Duration.seconds(30),
            role=lambda_role,
            runtime=aws_lambda.Runtime.PYTHON_3_8)
        fn_lambda_invoice_service.add_environment("TABLE_NAME",
                                                  dynamodb_table.table_name)

        fn_lambda_fulfilment_service = aws_lambda.Function(
            self,
            "lab2-cm-fulfilmentService",
            code=aws_lambda.AssetCode(
                "../lambda-functions/fulfilment-service/"),
            handler="app.lambda_handler",
            tracing=aws_lambda.Tracing.ACTIVE,
            timeout=core.Duration.seconds(30),
            role=lambda_role,
            runtime=aws_lambda.Runtime.PYTHON_3_8)
        fn_lambda_fulfilment_service.add_environment("TABLE_NAME",
                                                     dynamodb_table.table_name)
        fn_lambda_fulfilment_service.add_environment("EVENTBUS_NAME",
                                                     eb.event_bus_name)

        fn_lambda_forecasting_service = aws_lambda.Function(
            self,
            "lab2-cm-forecastingService",
            code=aws_lambda.AssetCode(
                "../lambda-functions/forecasting-service/"),
            handler="app.lambda_handler",
            tracing=aws_lambda.Tracing.ACTIVE,
            timeout=core.Duration.seconds(30),
            role=lambda_role,
            runtime=aws_lambda.Runtime.PYTHON_3_8)
        fn_lambda_forecasting_service.add_environment(
            "TABLE_NAME", dynamodb_table.table_name)

        fn_lambda_order_service = aws_lambda.Function(
            self,
            "lab2-cm-orderService",
            code=aws_lambda.AssetCode("../lambda-functions/order-service/"),
            handler="app.lambda_handler",
            timeout=core.Duration.seconds(30),
            tracing=aws_lambda.Tracing.ACTIVE,
            role=lambda_role,
            runtime=aws_lambda.Runtime.PYTHON_3_8)
        fn_lambda_order_service.add_environment("TABLE_NAME",
                                                dynamodb_table.table_name)
        fn_lambda_order_service.add_environment("EVENTBUS_NAME",
                                                eb.event_bus_name)

        fn_lambda_logistic_service = aws_lambda.Function(
            self,
            "lab2-cm-logisticService",
            code=aws_lambda.AssetCode("../lambda-functions/logistic-service/"),
            handler="app.lambda_handler",
            timeout=core.Duration.seconds(30),
            tracing=aws_lambda.Tracing.ACTIVE,
            role=lambda_role,
            runtime=aws_lambda.Runtime.PYTHON_3_8)
        fn_lambda_logistic_service.add_environment("TABLE_NAME",
                                                   dynamodb_table.table_name)

        eb_order_created_pattern = _eb.EventPattern(
            detail_type=["order_created"], )
        eb_fulfilment_completed_pattern = _eb.EventPattern(
            detail_type=["fulfilment_completed"], )
        eb_order_created_rule = _eb.Rule(
            self,
            id="lab2-cm-eventRule-order-created",
            description="Order created event",
            enabled=True,
            event_bus=eb,
            event_pattern=eb_order_created_pattern,
            rule_name="lab2-OrderCreated",
            targets=[
                _ebt.LambdaFunction(handler=fn_lambda_invoice_service),
                _ebt.LambdaFunction(handler=fn_lambda_fulfilment_service),
                _ebt.LambdaFunction(handler=fn_lambda_forecasting_service)
            ])

        eb_fulfilment_completed_rule = _eb.Rule(
            self,
            id="lab2-cm-eventRule-fulfilment-completed",
            description="Fulfilment completedevent",
            enabled=True,
            event_bus=eb,
            event_pattern=eb_fulfilment_completed_pattern,
            rule_name="lab2-FulfilmentCompleted",
            targets=[_ebt.LambdaFunction(handler=fn_lambda_logistic_service)])
        api = _ag.RestApi(
            self,
            id='lab2-cm-api-gateway',
        )
        api_lambda_integration = _ag.LambdaIntegration(fn_lambda_order_service)
        api.root.add_resource('order').add_method('GET',
                                                  api_lambda_integration)
Exemplo n.º 18
0
    def __init__(self, scope: core.Construct, id: str, **kwargs) -> None:
        super().__init__(scope, id, **kwargs)

        """
        Create Lambda Layer

        The packages should be stored in `python/lib/python3.7/site-packages`
        which translates to `/opt/python/lib/python3.7/site-packages` in AWS Lambda

        Refer here: https://stackoverflow.com/a/58702328/7999204
        """
        python_deps_layer = LayerVersion(
            self,
            "PythonDepsLayer",
            code=Code.from_asset("./python-deps-layer"),
            compatible_runtimes=[PYTHON_RUNTIME],
            description="A layer that contains Python Dependencies",
        )

        """
        Create DynamoDB Tables
        """
        poll_table = Table(
            self,
            "PollTable",
            partition_key=Attribute(name="id", type=AttributeType.STRING),
            sort_key=Attribute(name="SK", type=AttributeType.STRING),
            read_capacity=10,
            write_capacity=10,
            stream=StreamViewType.NEW_IMAGE,
        )

        # DynamoDB Lambda consumer worker
        aggregate_votes_function = Function(
            self,
            "AggregateVotesLambda",
            handler="ddb_stream.aggregate_vote_table",
            runtime=PYTHON_RUNTIME,
            code=Code.asset("./backend"),
            layers=[python_deps_layer],
            timeout=core.Duration.seconds(30),
        )
        aggregate_votes_function.add_environment("POLL_TABLE", poll_table.table_name)

        # DynamoDB Stream (Lambda Event Source)
        poll_table.grant_stream_read(aggregate_votes_function)
        poll_table.grant_read_write_data(aggregate_votes_function)
        ddb_aggregate_votes_event_source = DynamoEventSource(
            poll_table, starting_position=StartingPosition.LATEST
        )
        aggregate_votes_function.add_event_source(ddb_aggregate_votes_event_source)

        # DynamoDB main_page GSI
        poll_table.add_global_secondary_index(
            partition_key=Attribute(name="PK2", type=AttributeType.STRING),
            projection_type=ProjectionType.INCLUDE,
            index_name=MAIN_PAGE_GSI,
            non_key_attributes=["date", "question", "result"],
        )

        """
        Create AWS Cognito User Pool
        """
        self.users = UserPool(self, "vote-user")

        """
        HTTP API API Gateway with CORS
        """
        api = HttpApi(
            self,
            "VoteHttpApi",
            cors_preflight={
                "allow_headers": ["*"],
                "allow_methods": [
                    HttpMethod.GET,
                    HttpMethod.HEAD,
                    HttpMethod.OPTIONS,
                    HttpMethod.POST,
                ],
                "allow_origins": ["*"],
                "max_age": core.Duration.days(10),
            },
        )

        """
        HTTP API Lambda functions
        """
        get_all_votes_function = api_lambda_function(
            self,
            "GetAllVoteLambda",
            "api.get_all_votes",
            api,
            "/vote",
            GET,
            [python_deps_layer],
            [poll_table],
        )
        poll_table.grant_read_data(get_all_votes_function)

        get_vote_function = api_lambda_function(
            self,
            "GetVoteLambda",
            "api.get_vote_by_id",
            api,
            "/vote/{vote_id}",
            GET,
            [python_deps_layer],
            [poll_table],
        )
        poll_table.grant_read_data(get_vote_function)

        create_poll_function = api_lambda_function(
            self,
            "CreatePollLambda",
            "api.create_poll",
            api,
            "/vote",
            POST,
            [python_deps_layer],
            [poll_table],
        )
        poll_table.grant_write_data(create_poll_function)

        post_vote_function = api_lambda_function(
            self,
            "PostVoteLambda",
            "api.vote",
            api,
            "/vote/{vote_id}",
            POST,
            [python_deps_layer],
            [poll_table],
        )

        """
        Create SQS Queues
        """
        voting_queue = Queue(self, "voting-queue")

        # SQS Consumer worker
        voting_to_ddb_function = Function(
            self,
            "VotingToDDBLambda",
            handler="sqs_worker.insert_to_vote_db_table",
            runtime=PYTHON_RUNTIME,
            code=Code.asset("./backend"),
            layers=[python_deps_layer],
        )

        voting_to_ddb_function.add_environment("POLL_TABLE", poll_table.table_name)

        # SQS Queue to Lambda trigger mapping
        voting_to_ddb_event_source = SqsEventSource(voting_queue)
        voting_to_ddb_function.add_event_source(voting_to_ddb_event_source)

        poll_table.grant_read_write_data(voting_to_ddb_function)
        voting_queue.grant_send_messages(post_vote_function)

        post_vote_function.add_environment("VOTING_QUEUE_URL", voting_queue.queue_url)

        core.CfnOutput(self, "api-domain", value=api.url)
Exemplo n.º 19
0
    def __init__(self, scope: core.Construct, construct_id: str,
                 db_context: str, **kwargs) -> None:
        super().__init__(scope, construct_id, **kwargs)

        # setting the db context
        db = dict(self.node.try_get_context(db_context))

        # Shortening some of the logic
        billing_mode = BillingMode.PROVISIONED if db[
            "db_billing_mode"] == "provisioned" else BillingMode.PAY_PER_REQUEST
        pk = db["db_table_pk"]
        pk_type = AttributeType.STRING if db[
            "db_table_pk_type"] == "string" else AttributeType.NUMBER
        sk = None if db["db_table_sk"] == "" else db["db_table_sk"]
        sk_type = AttributeType.STRING if db[
            "db_table_sk_type"] == "string" else AttributeType.NUMBER
        gsi_projection_type = ProjectionType.ALL if db[
            "db_gsi_projection"] == "all" else ProjectionType.KEYS_ONLY
        lsi_projection_type = ProjectionType.ALL if db[
            "db_lsi_projection"] == "all" else ProjectionType.KEYS_ONLY

        if sk:
            table = Table(
                self,
                db["db_table"],
                table_name=db["db_table"],
                partition_key=Attribute(name=pk, type=pk_type),
                sort_key=Attribute(name=sk, type=sk_type),
                read_capacity=db["db_min_read_capacity"],
                write_capacity=db["db_min_write_capacity"],
                encryption=_ddb.TableEncryption.AWS_MANAGED,
                point_in_time_recovery=True,
                removal_policy=core.RemovalPolicy.DESTROY,
                billing_mode=billing_mode,
            )
        else:
            table = Table(
                self,
                db["db_table"],
                table_name=db["db_table"],
                partition_key=Attribute(name=pk, type=pk_type),
                read_capacity=db["db_min_read_capacity"],
                write_capacity=db["db_min_write_capacity"],
                encryption=_ddb.TableEncryption.AWS_MANAGED,
                point_in_time_recovery=True,
                removal_policy=core.RemovalPolicy.DESTROY,
                billing_mode=billing_mode,
            )

        # Add read/write autoscaling enabled at X% utilization
        if db["db_billing_mode"] == "provisioned" and db[
                "db_enable_autoscaling"]:
            read_scaling = table.auto_scale_read_capacity(
                min_capacity=db["db_min_read_capacity"],
                max_capacity=db["db_max_read_capacity"],
            )

            read_scaling.scale_on_utilization(
                target_utilization_percent=db["db_target_utilization"], )
            write_scaling = table.auto_scale_write_capacity(
                min_capacity=db["db_min_write_capacity"],
                max_capacity=db["db_max_write_capacity"],
            )
            write_scaling.scale_on_utilization(
                target_utilization_percent=db["db_target_utilization"], )

        # setting projection with keys or all

        if db["db_reverse_index"] and sk:
            table.add_global_secondary_index(
                partition_key=Attribute(name=sk, type=sk_type),
                sort_key=_ddb.Attribute(name=pk, type=pk_type),
                read_capacity=db["db_min_read_capacity"],
                write_capacity=db["db_min_write_capacity"],
                index_name='reverseIndex',
                projection_type=gsi_projection_type,
            )
            table.auto_scale_global_secondary_index_read_capacity(
                index_name='reverseIndex',
                min_capacity=db["db_min_read_capacity"],
                max_capacity=db["db_max_read_capacity"],
            )
            table.auto_scale_global_secondary_index_write_capacity(
                index_name='reverseIndex',
                min_capacity=db["db_min_write_capacity"],
                max_capacity=db["db_max_write_capacity"],
            )
        else:
            print("No Reverse indexes created")

        # Add LSI with a projection of All
        if db["db_add_lsi"]:
            table.add_local_secondary_index(
                index_name='LSI1',
                projection_type=lsi_projection_type,
                sort_key=Attribute(name='LSISK', type=AttributeType.STRING),
            )

        self.table = table