def batch_stepfunctions():
    stack_objective = "batch-stepfunctions"
    with Diagram(stack_objective,
                 outformat="png",
                 filename=f"{stack_objective}/pics/arch",
                 show=False):
        with Cluster("StepFunctions"):
            batch = Batch("AWS Batch")

        Cloudwatch("CloudWatch Event") >> Edge(label="cron") \
            >> batch << Edge(label="image") << EC2ContainerRegistry("ECR")

        batch >> Edge(label="access through IAM Role") >> S3("S3")
def apigw_dynamodb_sfn_with_heavytask():
    stack_objective = "apigw-dynamodb-sfn-with-heavytask"
    with Diagram(stack_objective,
                 outformat="png",
                 filename=f"{stack_objective}/pics/arch",
                 show=False):
        sqs = SQS("SQS")
        apigw = APIGateway("/task") >> Lambda("integration") >> [
            sqs, Dynamodb("DynamoDB")
        ]

        timer_lambda = Lambda("timer lambda")
        sqs << Edge(label="dequeue") << timer_lambda << Cloudwatch("cron")

        with Cluster(label="StepFunctions", direction="TB"):
            sfn_start = SFn_TASK("update DynamoDB\nset `running`")
            sfn_start \
                >> Lambda("Some Task") \
                >> [SFn_TASK("update DynamoDB\nset `success`"), SFn_TASK("update DynamoDB\nset `failure`")]

        # invoke sfn from Lambda
        timer_lambda >> sfn_start
with Diagram("Static Website on Amazon S3 ",
             filename="diagram",
             show=False,
             graph_attr=graph_attr):

    users = Users()

    with Cluster("AWS"):

        security = Cognito("Cognito")
        gateway = APIGateway("Gateway")
        route = Route53("Route53")
        db = DDB("DynamoDB")
        email_service = SES("SES")
        monitoring = Cloudwatch("AWS CloudWatch ")
        firewall = WAF("AWS WAF")
        identity = IAM("AWS IAM")

        with Cluster("CDN"):
            cdn = S3("S3") >> CF("CloudFront CDN")

        with Cluster("Functions") as xyz:
            func_send_mail = Lambda("Send Email")
            func_store_data = Lambda("Store Data")
            functions = [func_send_mail, func_store_data]
            gateway >> Edge() << functions

        functions >> Edge() << identity

        func_send_mail >> Edge() >> email_service >> users
Esempio n. 4
0
    with Cluster('Amazon Web Services'):
        with Cluster('Virtual Private Cloud'):
            kube = EKS('Elastic Kubernetes\nService')
            instance_1 = EC2('EC2 Instance 1\n(m5.xlarge)')
            disk_1 = EBS('EBS Disk 1\n(gp2)')
            instance_2 = EC2('EC2 Instance 2\n(m5.xlarge)')
            disk_2 = EBS('EBS Disk 2\n(gp2)')

            instance_1 - disk_1
            instance_2 - disk_2
            kube - instance_1
            kube - instance_2
            kube - RDS('Amazon RDS\nfor PostgreSQL\n(db.t3.large)')

        kube - S3('S3')
        kube - Cloudwatch('Amazon CloudWatch')
        dns = Route53('Route53')
        lb = ELB('Elastic Load Balancer')
        lb >> kube
        dns >> lb

    [Client('SDKs'), Users('Users')] >> dns

with Diagram('Google Cloud Platform resources',
             show=False,
             filename='gke',
             outformat='png'):
    with Cluster('Google Cloud Platform'):
        with Cluster('Virtual Private Cloud'):
            kube = GKE('Google Kubernetes\nEngine')
            instance_1 = ComputeEngine('VM Instance 1\n(n1-standard-4)')
Esempio n. 5
0
            promotions_cms >> promotions_gw >> promotions_be

        with Cluster("In Store"):
            printer_fe = S3("Docket Printer Front-end")
            docket_printer = Server("Docket Printer")
            cashier = User("Cashier")
            store_fe = S3("Store Front-end")
            store_api = APIGateway("Store API")
            store_be = Lambda("Store BE")
            cashier >> Edge(label="Retrieve printed docket") >> docket_printer
            printer_fe >> docket_printer
            store_db = S3("Store DB")
            cashier >> store_fe >> store_api >> store_be >> store_db

        with Cluster("Alerting"):
            logs = Cloudwatch("CloudWatch")
            alerts = SNS("SNS")
            logs >> alerts

        with Cluster("Ordering"):
            customer_fe = S3("Customer Front-end")
            customer_api = APIGateway("Customer API")
            customer_be = Lambda("Customer BE")
            customer_fe >> customer_api >> customer_be
            customer_fe >> Edge(label="Redirect for payment") >> payment_gw
            payment_gw >> Edge(label="Confirm payment status") >> customer_api

        customer_be >> Edge(label="Payment failures") >> logs
        promotions_be >> Edge(label="Promotion publication failures") >> logs
        promotions_be >> customer_api
        marketing >> Edge(label="Maintain promotions") >> promotions_cms
            PrivateSubnet("Private Subnet")
            with Cluster("Loadbalancing"):

                loadbalancer = ELB("Loadbalancer\nEndpoint")

                [maindomain, secondarydomain] >> loadbalancer

            with Cluster("ECS Cluster"):

                clusterecs = ECS("Webservices-Prod")

                autoscalingclusterecs = AutoScaling("Cluster Scaling")

                ec2 = EC2("EC2 Instances")

                alarmscluster = Cloudwatch("Cluster Reserved CPU Alarm")

                clusterecs >> alarmscluster >> autoscalingclusterecs >> ec2

                with Cluster("Webservices Service"):

                    webservices = EC2("Webservices Tasks")

                    autoscalingwebservices = AutoScaling(
                        "Webservices docker scaling")

                    alarmswebservices = Cloudwatch("Service CPU Alarm")

                    loadbalancer >> webservices >> ecr
                    webservices >> alarmswebservices >> autoscalingwebservices
Esempio n. 7
0
from diagrams.aws.compute import EC2
from diagrams.aws.compute import AutoScaling
from diagrams.aws.database import RDS
from diagrams.aws.network import ELB
from diagrams.aws.management import Cloudwatch
from diagrams.aws.storage import S3

with Diagram("AIK Archicteture Diagram Solution", show=False):

    bucket = S3("Bucket x3")
    vpc = Cluster("VPC")

    with vpc:
        loadBal = ELB("ELB")
        jenkins = EC2("Jenkins CI/CD Server")
        with Cluster("EC2 Instances - AutoScaling Group"):
            ec2_1 = EC2("AIK App")
            ec2_2 = EC2("AIK App")
        with Cluster("DB RDS MySQL"):
            rds = RDS("")

    rds << Edge(label="") >> ec2_1
    rds << Edge(label="") >> ec2_2

    loadBal >> ec2_1
    loadBal >> ec2_2

    ec2_1 >> bucket
    ec2_2 >> bucket
    ec2_1 << Cloudwatch("CloudWatch")
Esempio n. 8
0
    "fontname": "Helvetica",
    "style": "rounded",
    "bgcolor": "transparent"
}

cluster = {
    "fontsize": "16",
    "fontname": "Helvetica",
    "style": "rounded",
    "bgcolor": "transparent"
}

with Diagram("Codebuild", graph_attr=graph_attr, direction="LR"):

    with Cluster("Code change", graph_attr=major_cluster):

        with Cluster("Trigger", graph_attr=cluster):
            Trigger = Cloudwatch("Event Trigger")
            IAMRole("Trigger Role") >> Trigger
            Cloudwatch = Codecommit("Code Change") >> Edge(
                color="firebrick") >> Cloudwatch("Event Rule") >> Trigger

        with Cluster("Build", graph_attr=cluster):
            Build = Codebuild("Codebuild")
            IAMRole("Codebuild Role") >> Build
            Build << Edge(color="black") >> ParameterStore("Build No")
            Build << Edge(color="black") >> ParameterStore("Latest")
            Build >> Edge(color="darkgreen") >> S3("Artefact Store")

    Trigger >> Edge(color="firebrick") >> Build
Esempio n. 9
0
from diagrams import Diagram
from diagrams.aws.compute import Lambda
from diagrams.aws.management import Cloudwatch
from diagrams.saas.chat import Slack

with Diagram('人数0人Channelアーカイブbatch'):
    Cloudwatch('CloudwatchEvent\n週1回実行') >> Lambda('Lambda') >> Slack()
Esempio n. 10
0
from diagrams import Diagram, Cluster
from diagrams.aws.management import Cloudwatch

with Diagram("AWS CloudWatch Event Rule", show=False, direction="TB"):

    with Cluster("cloudwatch event rule"):
        source = Cloudwatch("event source")
        target = Cloudwatch("event target")
Esempio n. 11
0
from diagrams import Diagram, Cluster
from diagrams.onprem.container import Docker
from diagrams.generic.network import Firewall
from diagrams.aws.management import Cloudwatch, ParameterStore
from diagrams.aws.storage import EFS
from diagrams.aws.compute import ECS

with Diagram("AWS ECS Task Definition", show=False, direction="TB"):

    with Cluster("task definition"):
        image = Docker("image")
        ports = Firewall("ports")
        logging = Cloudwatch("logging")
        environment = ECS("environment")
        secrets = ParameterStore("secrets")
        health_check = ECS("health check")
        mount_points = EFS("mount points")
Esempio n. 12
0
from diagrams.aws.storage import S3
from diagrams.aws.database import Neptune
from diagrams.onprem.client import Client
from diagrams.aws.management import Cloudwatch

graph_attr = {
    "fontsize": "30"
}

with Diagram("Neptune Database / AWS US-East-1 ",
             filename="diagram",
             show=False,
             graph_attr=graph_attr):

    with Cluster("AWS"):
        rdf4jWorkbench = EC2("rdf4j-workbench")
        s3Bucket = S3("data load bucket")
        cloudWatch = Cloudwatch("CloudWatch")

        with Cluster("Neptune"):
            neptuneDb = Neptune("cluster")
            neptuneDb - [Neptune("Writer"), Neptune("Reader")]

    rdf4jWorkbench >> neptuneDb
    rdf4jWorkbench << neptuneDb
    cloudWatch << neptuneDb
    s3Bucket >> neptuneDb

    Client("web ui") >> Edge(color="darkblue",
                             style="dotted") << rdf4jWorkbench >> Edge()
Esempio n. 13
0
from diagrams.aws.compute import Lambda
from diagrams.aws.storage import S3
from diagrams.aws.database import Dynamodb
from diagrams.aws.integration import SQS, SNS
from diagrams.aws.ml import Rekognition

with Diagram("IOT Diagram", show=True, direction="TB"):

    _iotoutside = InternetOfThings("ESP-32 Board")

    with Cluster("AWS Serverless IOT"):

        _iotcore = IotCore("ESP-32 Iot Core")
        _iotevent = IotEvents("Event trigger SQS")
        _sqsesp32 = SQS("SQS Queue ESP32")
        _logsesp32 = Cloudwatch("Log Operations")
        _eventtriggeresp32 = Cloudwatch("Event Trigger to LAMBDA")
        _lambdaprocessimages = Lambda("Lambda process images")
        _imgrekog = Rekognition("Rekognition process")
        _tabledynamo = Dynamodb("Table history")
        _s3bucket = S3("S3 bucket images converted")
        _snstopico = SNS("Alert cat found")

    _iotoutside >> _iotcore >> _iotevent >> _sqsesp32
    _iotcore >> _logsesp32
    _eventtriggeresp32 >> _lambdaprocessimages >> _sqsesp32
    _lambdaprocessimages >> _imgrekog
    _imgrekog >> _lambdaprocessimages
    _lambdaprocessimages >> _tabledynamo
    _lambdaprocessimages >> _s3bucket
    _lambdaprocessimages >> _snstopico
Esempio n. 14
0
# diagram.py
from diagrams import Cluster, Diagram, Edge
from diagrams.aws.devtools import Codecommit
from diagrams.aws.integration import SNS
from diagrams.aws.management import Cloudwatch

with Diagram("AWS Codecommit", show=False):
    with Cluster("Module"):
        Codecommit("Code Repository") >> Cloudwatch(
            "CW Change Trigger") >> SNS("SNS Fan Out")
Esempio n. 15
0
# diagram.py
from diagrams import Cluster, Diagram
from diagrams.aws.security import Inspector
from diagrams.aws.management import Cloudwatch

with Diagram("Inspector", show=False):
          Cloudwatch("Event")>>Inspector("Inspector")
Esempio n. 16
0
from diagrams import Diagram, Cluster

from diagrams.aws.storage import S3
from diagrams.aws.compute import Lambda
from diagrams.aws.integration import SNS, Eventbridge
from diagrams.aws.management import Cloudwatch
from diagrams.onprem.queue import ActiveMQ

with Diagram("Alerting Workflow", show=True):
    with Cluster('main account'):
        topic = SNS('SNS Topic')

        with Cluster('Lambda'):
            l = Lambda('processor')
            topic >> l
            S3('lambda source') - l

        cl = Cloudwatch('Cloudwatch')
        l >> cl

        event = Eventbridge('Cloudwatch\nevent rule')
        cl >> event

    with Cluster('Event Bus'):
        event_bus = ActiveMQ('bus')
        event >> event_bus
        thanos = Thanos("\nThanos")
        prometheus - thanos

    with Cluster("Storage", graph_attr=graph_attr):
        with Cluster("Logs", graph_attr=graph_attr):
            elasticsearch = Elasticsearch("\nElasticsearch")
            solr = Solr("\nSolr")
            mongodb = Mongodb("\nMongoDB")
            elasticsearch - solr - mongodb

        with Cluster("Metrics", graph_attr=graph_attr):
            influx = Influxdb("\nInfluxDB")
            prometheus2 = Prometheus("\nPrometheus")
            prometheus2 - influx

        loki >> elasticsearch
        thanos >> prometheus2

    with Cluster("Visualization", graph_attr=graph_attr):
        kibana = Kibana("\nKibana")
        grafana = Grafana("\nGrafana")
        influx >> kibana
        mongodb >> grafana

    with Cluster("Cloud", graph_attr=graph_attr):
        with Cluster("Azure", graph_attr=graph_attr):
            azlog = LogAnalyticsWorkspaces("\nLog Analytics")
        with Cluster("AWS", graph_attr=graph_attr):
            awslog = Cloudwatch("\nCloudwatch")

    grafana >> Edge(color="white") >> azlog
Esempio n. 18
0
from diagrams.aws.network import InternetGateway, RouteTable, VPCRouter
from diagrams.aws.security import KMS, IAMRole
from diagrams.generic.network import Firewall
from diagrams.onprem.network import Internet

graph_attr = {
    "pad": "0",
    "bgcolor": "transparent"
}

with Diagram("template-08", show=False, direction="LR", filename="diagram-08", graph_attr=graph_attr):
    internet = Internet("Public Internet")
    with Cluster("Vpc 10.0.0.0/16"):
        internet_gateway = InternetGateway("Igw")
        internet - internet_gateway
        routeTable = RouteTable("RouteTable")
        routeTable >> Edge(label="0.0.0.0/0", style="dashed") >> internet_gateway
        with Cluster("Subnet 10.0.0.0/24"):
            router = VPCRouter("Router\n10.0.0.1")
            router - Edge(style="dashed") - routeTable
            router - internet_gateway
            ec2 = EC2("ec2\n10.0.0.x")
            ec2 - Edge(style="dashed") - router
            sg = Firewall("SG: 22/tcp")
            ec2 - sg - router
    KMS("KeyPair") - ec2
    ec2Role = IAMRole("Ec2InstanceRole") - ec2

    cw = Cloudwatch("CloudWatch")
    cw - internet
Esempio n. 19
0
                Blank("")
                # with Cluster("Private Subnet (2)") as priv2:
                tableau = Tableau("Tableau Server\n(EC2)")

        with Cluster("S3 Data Lake"):
            s3data = storage.S3("Data Bucket")
            s3meta = storage.S3("Metadata Bucket")
            s3logs = storage.S3("Logging Bucket")
            sftp = TransferForSftp("SFTP\nTransfer Service")
            py_fn1 = compute.Lambda("File Listener\n(Lambda Python)")
            glue = Glue("Spark Transforms\n(Glue)")

        # with Cluster("AWS Serverless"):
        events = Eventbridge("Event Triggers\n(AWS Eventbridge)")
        secrets = security.SecretsManager("AWS Secrets\nManager")
        cw = Cloudwatch("Cloudwatch Logs")

    source = Internet("External\nData Source")

    py_fn1 << s3data << py_fn1
    glue << s3data << glue

    nat << singer1
    nat >> source
    elb >> tableau
    s3meta >> singer1 >> s3data
    singer1 << secrets
    singer1 << events
    rs1 << singer1
    users >> elb
    source >> singer1