Package software.amazon.awscdk.services.synthetics


package software.amazon.awscdk.services.synthetics

Amazon CloudWatch Synthetics Construct Library

Amazon CloudWatch Synthetics allow you to monitor your application by generating synthetic traffic. The traffic is produced by a canary: a configurable script that runs on a schedule. You configure the canary script to follow the same routes and perform the same actions as a user, which allows you to continually verify your user experience even when you don't have any traffic on your applications.

Canary

To illustrate how to use a canary, assume your application defines the following endpoint:

 % curl "https://api.example.com/user/books/topbook/"
 The Hitchhikers Guide to the Galaxy
 

The below code defines a canary that will hit the books/topbook endpoint every 5 minutes:

 Canary canary = Canary.Builder.create(this, "MyCanary")
         .schedule(Schedule.rate(Duration.minutes(5)))
         .test(Test.custom(CustomTestOptions.builder()
                 .code(Code.fromAsset(join(__dirname, "canary")))
                 .handler("index.handler")
                 .build()))
         .runtime(Runtime.SYNTHETICS_NODEJS_PUPPETEER_6_2)
         .environmentVariables(Map.of(
                 "stage", "prod"))
         .build();
 

The following is an example of an index.js file which exports the handler function:

 const synthetics = require('Synthetics');
 const log = require('SyntheticsLogger');
 
 const pageLoadBlueprint = async function () {
   // Configure the stage of the API using environment variables
   const url = `https://api.example.com/${process.env.stage}/user/books/topbook/`;
 
   const page = await synthetics.getPage();
   const response = await page.goto(url, { waitUntil: 'domcontentloaded', timeout: 30000 });
   // Wait for page to render. Increase or decrease wait time based on endpoint being monitored.
   await page.waitFor(15000);
   // This will take a screenshot that will be included in test output artifacts.
   await synthetics.takeScreenshot('loaded', 'loaded');
   const pageTitle = await page.title();
   log.info('Page title: ' + pageTitle);
   if (response.status() !== 200) {
     throw 'Failed to load page!';
   }
 };
 
 exports.handler = async () => {
   return await pageLoadBlueprint();
 };
 

Note: The function must be called handler.

The canary will automatically produce a CloudWatch Dashboard:

UI Screenshot

The Canary code will be executed in a lambda function created by Synthetics on your behalf. The Lambda function includes a custom runtime provided by Synthetics. The provided runtime includes a variety of handy tools such as Puppeteer (for nodejs based one) and Chromium.

To learn more about Synthetics capabilities, check out the docs.

Canary Schedule

You can specify the schedule on which a canary runs by providing a Schedule object to the schedule property.

Configure a run rate of up to 60 minutes with Schedule.rate:

 Schedule schedule = Schedule.rate(Duration.minutes(5));
 

You can also specify a cron expression with Schedule.cron:

 Schedule schedule = Schedule.cron(CronOptions.builder()
         .hour("0,8,16")
         .build());
 

If you want the canary to run just once upon deployment, you can use Schedule.once().

Deleting underlying resources on canary deletion

When you delete a lambda, the following underlying resources are isolated in your AWS account:

  • Lambda Function that runs your canary script
  • S3 Bucket for artifact storage
  • IAM roles and policies
  • Log Groups in CloudWatch Logs.

To learn more about these underlying resources, see Synthetics Canaries Deletion.

In the CDK, you can configure your canary to delete the underlying lambda function when the canary is deleted. This can be provisioned by setting cleanup: Cleanup.LAMBDA. Note that this will create a custom resource under the hood that takes care of the lambda deletion for you.

 Canary canary = Canary.Builder.create(this, "Canary")
         .test(Test.custom(CustomTestOptions.builder()
                 .handler("index.handler")
                 .code(Code.fromInline("/* Synthetics handler code"))
                 .build()))
         .cleanup(Cleanup.LAMBDA)
         .runtime(Runtime.SYNTHETICS_NODEJS_PUPPETEER_6_2)
         .build();
 

Note: To properly clean up your canary on deletion, you still have to manually delete other resources like S3 buckets and CloudWatch logs.

Configuring the Canary Script

To configure the script the canary executes, use the test property. The test property accepts a Test instance that can be initialized by the Test class static methods. Currently, the only implemented method is Test.custom(), which allows you to bring your own code. In the future, other methods will be added. Test.custom() accepts code and handler properties -- both are required by Synthetics to create a lambda function on your behalf.

The synthetics.Code class exposes static methods to bundle your code artifacts:

  • code.fromInline(code) - specify an inline script.
  • code.fromAsset(path) - specify a .zip file or a directory in the local filesystem which will be zipped and uploaded to S3 on deployment. See the above Note for directory structure.
  • code.fromBucket(bucket, key[, objectVersion]) - specify an S3 object that contains the .zip file of your runtime code. See the above Note for directory structure.

Using the Code class static initializers:

 // To supply the code from a S3 bucket:
 import software.amazon.awscdk.services.s3.*;
 // To supply the code inline:
 // To supply the code inline:
 Canary.Builder.create(this, "Inline Canary")
         .test(Test.custom(CustomTestOptions.builder()
                 .code(Code.fromInline("/* Synthetics handler code */"))
                 .handler("index.handler")
                 .build()))
         .runtime(Runtime.SYNTHETICS_NODEJS_PUPPETEER_6_2)
         .build();
 
 // To supply the code from your local filesystem:
 // To supply the code from your local filesystem:
 Canary.Builder.create(this, "Asset Canary")
         .test(Test.custom(CustomTestOptions.builder()
                 .code(Code.fromAsset(join(__dirname, "canary")))
                 .handler("index.handler")
                 .build()))
         .runtime(Runtime.SYNTHETICS_NODEJS_PUPPETEER_6_2)
         .build();
 Bucket bucket = new Bucket(this, "Code Bucket");
 Canary.Builder.create(this, "Bucket Canary")
         .test(Test.custom(CustomTestOptions.builder()
                 .code(Code.fromBucket(bucket, "canary.zip"))
                 .handler("index.handler")
                 .build()))
         .runtime(Runtime.SYNTHETICS_NODEJS_PUPPETEER_6_2)
         .build();
 

Note: Synthetics have a specified folder structure for canaries. For Node scripts supplied via code.fromAsset() or code.fromBucket(), the canary resource requires the following folder structure:

 canary/
 ├── nodejs/
    ├── node_modules/
         ├── <filename>.js
 

For Python scripts supplied via code.fromAsset() or code.fromBucket(), the canary resource requires the following folder structure:

 canary/
 ├── python/
     ├── <filename>.py
 

See Synthetics docs.

Running a canary on a VPC

You can specify what VPC a canary executes in. This can allow for monitoring services that may be internal to a specific VPC. To place a canary within a VPC, you can specify the vpc property with the desired VPC to place then canary in. This will automatically attach the appropriate IAM permissions to attach to the VPC. This will also create a Security Group and attach to the default subnets for the VPC unless specified via vpcSubnets and securityGroups.

 import software.amazon.awscdk.services.ec2.*;
 
 IVpc vpc;
 
 Canary.Builder.create(this, "Vpc Canary")
         .test(Test.custom(CustomTestOptions.builder()
                 .code(Code.fromAsset(join(__dirname, "canary")))
                 .handler("index.handler")
                 .build()))
         .runtime(Runtime.SYNTHETICS_NODEJS_PUPPETEER_6_2)
         .vpc(vpc)
         .build();
 

Note: By default, the Synthetics runtime needs access to the S3 and CloudWatch APIs, which will fail in a private subnet without internet access enabled (e.g. an isolated subnnet).

Ensure that the Canary is placed in a VPC either with internet connectivity or with VPC Endpoints for S3 and CloudWatch enabled and configured.

See Synthetics VPC docs.

Alarms

You can configure a CloudWatch Alarm on a canary metric. Metrics are emitted by CloudWatch automatically and can be accessed by the following APIs:

  • canary.metricSuccessPercent() - percentage of successful canary runs over a given time
  • canary.metricDuration() - how much time each canary run takes, in seconds.
  • canary.metricFailed() - number of failed canary runs over a given time

Create an alarm that tracks the canary metric:

 import software.amazon.awscdk.services.cloudwatch.*;
 
 Canary canary;
 
 Alarm.Builder.create(this, "CanaryAlarm")
         .metric(canary.metricSuccessPercent())
         .evaluationPeriods(2)
         .threshold(90)
         .comparisonOperator(ComparisonOperator.LESS_THAN_THRESHOLD)
         .build();
 

Artifacts

You can pass an S3 bucket to store artifacts from canary runs. If you do not, one will be auto-generated when the canary is created. You may add lifecycle rules to the auto-generated bucket.

 Canary canary = Canary.Builder.create(this, "MyCanary")
         .schedule(Schedule.rate(Duration.minutes(5)))
         .test(Test.custom(CustomTestOptions.builder()
                 .code(Code.fromAsset(join(__dirname, "canary")))
                 .handler("index.handler")
                 .build()))
         .runtime(Runtime.SYNTHETICS_NODEJS_PUPPETEER_6_2)
         .artifactsBucketLifecycleRules(List.of(LifecycleRule.builder()
                 .expiration(Duration.days(30))
                 .build()))
         .build();