A CDK construct for implementing multi-AZ observability to detect single AZ impairments

Navigation

Verified details

These details have been verified by PyPI
Maintainers
Avatar for cdklabs-automation from gravatar.com cdklabs-automation

Unverified details

These details have not been verified by PyPI
Project links
Meta
  • License: OSI Approved (Apache-2.0)
  • Author: Amazon Web Services<aws-cdk-dev@amazon.com>
  • Requires: Python ~=3.9
Classifiers
Report project as malware

Project description

multi-az-observability

This is a CDK construct for multi-AZ observability to help detect single-AZ impairments. This is currently an alpha version, but is being used in the AWS Advanced Multi-AZ Resilience Patterns workshop.

There is a lot of available information to think through and combine to provide signals about single-AZ impact. To simplify the setup and use reasonable defaults, this construct (available in TypeScript, Go, Python, and .NET [Java coming soon]) sets up the necessary observability. To use the CDK construct, you first define your service like this:

var wildRydesService = new Service(new ServiceProps(){
    ServiceName = "WildRydes",
    BaseUrl = "http://www.example.com",
    FaultCountThreshold = 25,
    AvailabilityZoneNames = vpc.AvailabilityZones,
    Period = Duration.Seconds(60),
    LoadBalancer = loadBalancer,
    DefaultAvailabilityMetricDetails = new ServiceMetricDetails(new ServiceMetricDetailsProps() {
        AlarmStatistic = "Sum",
        DatapointsToAlarm = 3,
        EvaluationPeriods = 5,
        FaultAlarmThreshold = 1,
        FaultMetricNames = new string[] { "Fault", "Error" },
        GraphedFaultStatistics = new string[] { "Sum" },
        GraphedSuccessStatistics = new string[] { "Sum" },
        MetricNamespace = metricsNamespace,
        Period = Duration.Seconds(60),
        SuccessAlarmThreshold = 99,
        SuccessMetricNames = new string[] {"Success"},
        Unit = Unit.COUNT,
    }),
    DefaultLatencyMetricDetails = new ServiceMetricDetails(new ServiceMetricDetailsProps(){
        AlarmStatistic = "p99",
        DatapointsToAlarm = 3,
        EvaluationPeriods = 5,
        FaultAlarmThreshold = 1,
        FaultMetricNames = new string[] { "FaultLatency" },
        GraphedFaultStatistics = new string[] { "p50" },
        GraphedSuccessStatistics = new string[] { "p50", "p99", "tm50", "tm99" },
        MetricNamespace = metricsNamespace,
        Period = Duration.Seconds(60),
        SuccessAlarmThreshold = 100,
        SuccessMetricNames = new string[] {"SuccessLatency"},
        Unit = Unit.MILLISECONDS,
    }),
    DefaultContributorInsightRuleDetails =  new ContributorInsightRuleDetails(new ContributorInsightRuleDetailsProps() {
        AvailabilityZoneIdJsonPath = azIdJsonPath,
        FaultMetricJsonPath = faultMetricJsonPath,
        InstanceIdJsonPath = instanceIdJsonPath,
        LogGroups = serverLogGroups,
        OperationNameJsonPath = operationNameJsonPath,
        SuccessLatencyMetricJsonPath = successLatencyMetricJsonPath
    }),
    CanaryTestProps = new AddCanaryTestProps() {
        RequestCount = 10,
        LoadBalancer = loadBalancer,
        Schedule = "rate(1 minute)",
        NetworkConfiguration = new NetworkConfigurationProps() {
            Vpc = vpc,
            SubnetSelection = new SubnetSelection() { SubnetType = SubnetType.PRIVATE_ISOLATED }
        }
    }
});
wildRydesService.AddOperation(new Operation(new OperationProps() {
    OperationName = "Signin",
    Path = "/signin",
    Service = wildRydesService,
    Critical = true,
    HttpMethods = new string[] { "GET" },
    ServerSideAvailabilityMetricDetails = new OperationMetricDetails(new OperationMetricDetailsProps() {
        OperationName = "Signin",
        MetricDimensions = new MetricDimensions(new Dictionary<string, string> {{ "Operation", "Signin"}}, "AZ-ID", "Region")
    }, wildRydesService.DefaultAvailabilityMetricDetails),
    ServerSideLatencyMetricDetails = new OperationMetricDetails(new OperationMetricDetailsProps() {
        OperationName = "Signin",
        SuccessAlarmThreshold = 150,
        MetricDimensions = new MetricDimensions(new Dictionary<string, string> {{ "Operation", "Signin"}}, "AZ-ID", "Region")
    }, wildRydesService.DefaultLatencyMetricDetails),
    CanaryTestLatencyMetricsOverride = new CanaryTestMetricsOverride(new CanaryTestMetricsOverrideProps() {
        SuccessAlarmThreshold = 250
    })
}));
wildRydesService.AddOperation(new Operation(new OperationProps() {
    OperationName = "Pay",
    Path = "/pay",
    Service = wildRydesService,
    HttpMethods = new string[] { "GET" },
    Critical = true,
    ServerSideAvailabilityMetricDetails = new OperationMetricDetails(new OperationMetricDetailsProps() {
        OperationName = "Pay",
        MetricDimensions = new MetricDimensions(new Dictionary<string, string> {{ "Operation", "Pay"}}, "AZ-ID", "Region")
    }, wildRydesService.DefaultAvailabilityMetricDetails),
    ServerSideLatencyMetricDetails = new OperationMetricDetails(new OperationMetricDetailsProps() {
        OperationName = "Pay",
        SuccessAlarmThreshold = 200,
        MetricDimensions = new MetricDimensions(new Dictionary<string, string> {{ "Operation", "Pay"}}, "AZ-ID", "Region")
    }, wildRydesService.DefaultLatencyMetricDetails),
    CanaryTestLatencyMetricsOverride = new CanaryTestMetricsOverride(new CanaryTestMetricsOverrideProps() {
        SuccessAlarmThreshold = 300
    })
}));
wildRydesService.AddOperation(new Operation(new OperationProps() {
    OperationName = "Ride",
    Path = "/ride",
    Service = wildRydesService,
    HttpMethods = new string[] { "GET" },
    Critical = true,
    ServerSideAvailabilityMetricDetails = new OperationMetricDetails(new OperationMetricDetailsProps() {
        OperationName = "Ride",
        MetricDimensions = new MetricDimensions(new Dictionary<string, string> {{ "Operation", "Ride"}}, "AZ-ID", "Region")
    }, wildRydesService.DefaultAvailabilityMetricDetails),
    ServerSideLatencyMetricDetails = new OperationMetricDetails(new OperationMetricDetailsProps() {
        OperationName = "Ride",
        SuccessAlarmThreshold = 350,
        MetricDimensions = new MetricDimensions(new Dictionary<string, string> {{ "Operation", "Ride"}}, "AZ-ID", "Region")
    }, wildRydesService.DefaultLatencyMetricDetails),
    CanaryTestLatencyMetricsOverride = new CanaryTestMetricsOverride(new CanaryTestMetricsOverrideProps() {
        SuccessAlarmThreshold = 550
    })
}));
wildRydesService.AddOperation(new Operation(new OperationProps() {
    OperationName = "Home",
    Path = "/home",
    Service = wildRydesService,
    HttpMethods = new string[] { "GET" },
    Critical = true,
    ServerSideAvailabilityMetricDetails = new OperationMetricDetails(new OperationMetricDetailsProps() {
        OperationName = "Home",
        MetricDimensions = new MetricDimensions(new Dictionary<string, string> {{ "Operation", "Ride"}}, "AZ-ID", "Region")
    }, wildRydesService.DefaultAvailabilityMetricDetails),
    ServerSideLatencyMetricDetails = new OperationMetricDetails(new OperationMetricDetailsProps() {
        OperationName = "Home",
        SuccessAlarmThreshold = 100,
        MetricDimensions = new MetricDimensions(new Dictionary<string, string> {{ "Operation", "Ride"}}, "AZ-ID", "Region")
    }, wildRydesService.DefaultLatencyMetricDetails),
    CanaryTestLatencyMetricsOverride = new CanaryTestMetricsOverride(new CanaryTestMetricsOverrideProps() {
        SuccessAlarmThreshold = 200
    })
}));

Then you provide that service definition to the CDK construct.

InstrumentedServiceMultiAZObservability multiAvailabilityZoneObservability = new InstrumentedServiceMultiAZObservability(this, "MultiAZObservability", new InstrumentedServiceMultiAZObservabilityProps() {
    Service = wildRydesService,
    CreateDashboards = true,
    Interval = Duration.Minutes(60), // The interval for the dashboard
    OutlierDetectionAlgorithm = OutlierDetectionAlgorithm.STATIC
});

You define some characteristics of the service, default values for metrics and alarms, and then add operations as well as any overrides for default values that you need. The construct can also automatically create synthetic canaries that test each operation with a very simple HTTP check, or you can configure your own synthetics and just tell the construct about the metric details and optionally log files. This creates metrics, alarms, and dashboards that can be used to detect single-AZ impact.

If you don't have service specific logs and custom metrics with per-AZ dimensions, you can still use the construct to evaluate ALB and NAT Gateway metrics to find single AZ faults.

BasicServiceMultiAZObservability multiAvailabilityZoneObservability = new BasicServiceMultiAZObservability(this, "MultiAZObservability", new BasicServiceMultiAZObservabilityProps() {
    ApplicationLoadBalancers = new IApplicationLoadBalancer[] { loadBalancer },
    NatGateways = new Dictionary<string, CfnNatGateway>() {
        { "us-east-1a", natGateway1},
        { "us-east-1b", natGateway2},
        { "us-east-1c", natGateway3},
    },
    CreateDashboard = true,
    OutlierDetectionAlgorithm = OutlierDetectionAlgorithm.STATIC,
    FaultCountPercentageThreshold = 1.0, // The fault rate to alarm on for errors seen from the ALBs in the same AZ
    PacketLossImpactPercentageThreshold = 0.01, // The percentage of packet loss to alarm on for the NAT Gateways in the same AZ
    ServiceName = "WildRydes",
    Period = Duration.Seconds(60), // The period for metric evaluation
    Interval = Duration.Minutes(60) // The interval for the dashboards
    EvaluationPeriods = 5,
    DatapointsToAlarm = 3
});

If you provide a load balancer, the construct assumes it is deployed in each AZ of the VPC the load balancer is associated with and will look for HTTP metrics using those AZs as dimensions.

Both options support running workloads on EC2, ECS, Lambda, and EKS.

Project details

Verified details

These details have been verified by PyPI
Maintainers
Avatar for cdklabs-automation from gravatar.com cdklabs-automation

Unverified details

These details have not been verified by PyPI
Project links
Meta
  • License: OSI Approved (Apache-2.0)
  • Author: Amazon Web Services<aws-cdk-dev@amazon.com>
  • Requires: Python ~=3.9
Classifiers

Release history Release notifications | RSS feed

0.0.1a67 pre-release

0.0.1a66 pre-release

0.0.1a65 pre-release

0.0.1a64 pre-release

0.0.1a63 pre-release

0.0.1a62 pre-release

0.0.1a61 pre-release

0.0.1a60 pre-release

0.0.1a59 pre-release

0.0.1a58 pre-release

0.0.1a57 pre-release

0.0.1a56 pre-release

0.0.1a55 pre-release

0.0.1a54 pre-release

0.0.1a53 pre-release

0.0.1a52 pre-release

0.0.1a51 pre-release

0.0.1a50 pre-release

0.0.1a49 pre-release

0.0.1a48 pre-release

0.0.1a47 pre-release

0.0.1a46 pre-release

0.0.1a45 pre-release

0.0.1a44 pre-release

0.0.1a43 pre-release

0.0.1a42 pre-release

0.0.1a41 pre-release

0.0.1a40 pre-release

0.0.1a39 pre-release

0.0.1a38 pre-release

0.0.1a37 pre-release

0.0.1a36 pre-release

0.0.1a35 pre-release

0.0.1a34 pre-release

0.0.1a33 pre-release

0.0.1a32 pre-release

0.0.1a31 pre-release

0.0.1a30 pre-release

0.0.1a29 pre-release

0.0.1a28 pre-release

0.0.1a27 pre-release

0.0.1a26 pre-release

0.0.1a25 pre-release

0.0.1a24 pre-release

0.0.1a23 pre-release

0.0.1a22 pre-release

0.0.1a21 pre-release

0.0.1a20 pre-release

0.0.1a19 pre-release

0.0.1a18 pre-release

0.0.1a17 pre-release

0.0.1a16 pre-release

0.0.1a15 pre-release

0.0.1a14 pre-release

This version

0.0.1a13 pre-release

0.0.1a12 pre-release

0.0.1a11 pre-release

0.0.1a10 pre-release

0.0.1a9 pre-release

0.0.1a8 pre-release

0.0.1a7 pre-release

0.0.1a6 pre-release

0.0.1a5 pre-release

0.0.1a4 pre-release

0.0.1a3 pre-release

0.0.1a2 pre-release

0.0.1a1 pre-release

0.0.1a0 pre-release

0.0.0a0 pre-release

Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

cdklabs_multi_az_observability-0.0.1a13.tar.gz (82.3 MB view details)

Uploaded Source

Built Distribution

If you're not sure about the file name format, learn more about wheel file names.

cdklabs.multi_az_observability-0.0.1a13-py3-none-any.whl (82.3 MB view details)

Uploaded Python 3

File details

Details for the file cdklabs_multi_az_observability-0.0.1a13.tar.gz.

File metadata

File hashes

Hashes for cdklabs_multi_az_observability-0.0.1a13.tar.gz
Algorithm Hash digest
SHA256 a9f29223c4225fd7253a7db36f97fbdc3cda10b4af860250ec8a7b15a655377e
MD5 db6b1b6ab3bbaa348d9218ef265b4767
BLAKE2b-256 98fe51163c5b82f06b0c8f522f168818eb07e536ee1dc54c9323692d1116c90c

See more details on using hashes here.

File details

Details for the file cdklabs.multi_az_observability-0.0.1a13-py3-none-any.whl.

File metadata

File hashes

Hashes for cdklabs.multi_az_observability-0.0.1a13-py3-none-any.whl
Algorithm Hash digest
SHA256 3801ed33bf3301942dd28896f03c20b9894c79475726fb07934215af372ece32
MD5 e8728494bb9bad4ce88155030d77902f
BLAKE2b-256 f1f59dcce7eca721daa56420aedf87c21928f4fe37fd9a0a88b6d7881dccb569

See more details on using hashes here.

Supported by

AWS Cloud computing and Security Sponsor Datadog Monitoring Depot Continuous Integration Fastly CDN Google Download Analytics Pingdom Monitoring Sentry Error logging StatusPage Status page