Use the AWS Elemental MediaTailor SDKs and CLI to configure scalable ad insertion and linear channels. With MediaTailor, you can assemble existing content into a linear stream and serve targeted ads to viewers while maintaining broadcast quality in over-the-top (OTT) video applications. For information about using the service, including detailed information about the settings covered in this guide, see the AWS Elemental MediaTailor User Guide.
Through the SDKs and the CLI you manage AWS Elemental MediaTailor configurations and channels the same as you do through the console. For example, you specify ad insertion behavior and mapping information for the origin server and the ad decision server (ADS).
This reference provides descriptions of the low-level AWS Marketplace Metering Service API.
AWS Marketplace sellers can use this API to submit usage data for custom usage dimensions.
For information on the permissions you need to use this API, see AWS Marketplace metering and entitlement API permissions in the AWS Marketplace Seller Guide.
Submitting Metering Records
-
MeterUsage - Submits the metering record for an AWS Marketplace product.
MeterUsage
is called from an EC2 instance or a container running on EKS or ECS. -
BatchMeterUsage - Submits the metering record for a set of customers.
BatchMeterUsage
is called from a software-as-a-service (SaaS) application.
Accepting New Customers
-
ResolveCustomer - Called by a SaaS application during the registration process. When a buyer visits your website during the registration process, the buyer submits a Registration Token through the browser. The Registration Token is resolved through this API to obtain a
CustomerIdentifier
along with theCustomerAWSAccountId
andProductCode
.
Entitlement and Metering for Paid Container Products
-
Paid container software products sold through AWS Marketplace must integrate with the AWS Marketplace Metering Service and call the
RegisterUsage
operation for software entitlement and metering. Free and BYOL products for Amazon ECS or Amazon EKS aren't required to callRegisterUsage
, but you can do so if you want to receive usage data in your seller reports. For more information on using theRegisterUsage
operation, see Container-Based Products.
BatchMeterUsage
API calls are captured by AWS CloudTrail. You can use Cloudtrail to verify that the SaaS metering records that you sent are accurate by searching for records with the eventName
of BatchMeterUsage
. You can also use CloudTrail to audit records over time. For more information, see the AWS CloudTrail User Guide.
The AWS Migration Hub home region APIs are available specifically for working with your Migration Hub home region. You can use these APIs to determine a home region, as well as to create and work with controls that describe the home region.
-
You must make API calls for write actions (create, notify, associate, disassociate, import, or put) while in your home region, or a
HomeRegionNotSetException
error is returned. -
API calls for read actions (list, describe, stop, and delete) are permitted outside of your home region.
-
If you call a write API outside the home region, an
InvalidInputException
is returned. -
You can call
GetHomeRegion
action to obtain the account's Migration Hub home region.
For specific API usage, see the sections that follow in this AWS Migration Hub Home Region API reference.
Amazon CloudWatch monitors your Amazon Web Services (Amazon Web Services) resources and the applications you run on Amazon Web Services in real time. You can use CloudWatch to collect and track metrics, which are the variables you want to measure for your resources and applications.
CloudWatch alarms send notifications or automatically change the resources you are monitoring based on rules that you define. For example, you can monitor the CPU usage and disk reads and writes of your Amazon EC2 instances. Then, use this data to determine whether you should launch additional instances to handle increased load. You can also use this data to stop under-used instances to save money.
In addition to monitoring the built-in metrics that come with Amazon Web Services, you can monitor your own custom metrics. With CloudWatch, you gain system-wide visibility into resource utilization, application performance, and operational health.
Amazon MQ is a managed message broker service for Apache ActiveMQ and RabbitMQ that makes it easy to set up and operate message brokers in the cloud. A message broker allows software applications and components to communicate using various programming languages, operating systems, and formal messaging protocols.
This section contains the Amazon Managed Workflows for Apache Airflow (MWAA) API reference documentation. For more information, see What Is Amazon MWAA?.
Endpoints
-
api.airflow.{region}.amazonaws.com
- This endpoint is used for environment management. -
env.airflow.{region}.amazonaws.com
- This endpoint is used to operate the Airflow environment. -
ops.airflow.{region}.amazonaws.com
- This endpoint is used to push environment metrics that track environment health.
Regions
For a list of regions that Amazon MWAA supports, see Region availability in the Amazon MWAA User Guide.
Amazon Neptune is a fast, reliable, fully-managed graph database service that makes it easy to build and run applications that work with highly connected datasets. The core of Amazon Neptune is a purpose-built, high-performance graph database engine optimized for storing billions of relationships and querying the graph with milliseconds latency. Amazon Neptune supports popular graph models Property Graph and W3C's RDF, and their respective query languages Apache TinkerPop Gremlin and SPARQL, allowing you to easily build queries that efficiently navigate highly connected datasets. Neptune powers graph use cases such as recommendation engines, fraud detection, knowledge graphs, drug discovery, and network security.
This interface reference for Amazon Neptune contains documentation for a programming or command line interface you can use to manage Amazon Neptune. Note that Amazon Neptune is asynchronous, which means that some interfaces might require techniques such as polling or callback functions to determine when a command has been applied. In this reference, the parameter descriptions indicate whether a command is applied immediately, on the next instance reboot, or during the maintenance window. The reference structure is as follows, and we list following some related topics from the user guide.
This is the API Reference for Network Firewall. This guide is for developers who need detailed information about the Network Firewall API actions, data types, and errors.
-
The REST API requires you to handle connection details, such as calculating signatures, handling request retries, and error handling. For general information about using the Amazon Web Services REST APIs, see Amazon Web Services APIs.
To access Network Firewall using the REST API endpoint:
https://network-firewall.<region>.amazonaws.com
-
Alternatively, you can use one of the Amazon Web Services SDKs to access an API that's tailored to the programming language or platform that you're using. For more information, see Amazon Web Services SDKs.
-
For descriptions of Network Firewall features, including and step-by-step instructions on how to use them through the Network Firewall console, see the Network Firewall Developer Guide.
Network Firewall is a stateful, managed, network firewall and intrusion detection and prevention service for Amazon Virtual Private Cloud (Amazon VPC). With Network Firewall, you can filter traffic at the perimeter of your VPC. This includes filtering traffic going to and coming from an internet gateway, NAT gateway, or over VPN or Direct Connect. Network Firewall uses rules that are compatible with Suricata, a free, open source network analysis and threat detection engine. Network Firewall supports Suricata version 6.0.9. For information about Suricata, see the Suricata website.
You can use Network Firewall to monitor and protect your VPC traffic in a number of ways. The following are just a few examples:
-
Allow domains or IP addresses for known Amazon Web Services service endpoints, such as Amazon S3, and block all other forms of traffic.
-
Use custom lists of known bad domains to limit the types of domain names that your applications can access.
-
Perform deep packet inspection on traffic entering or leaving your VPC.
-
Use stateful protocol detection to filter protocols like HTTPS, regardless of the port used.
To enable Network Firewall for your VPCs, you perform steps in both Amazon VPC and in Network Firewall. For information about using Amazon VPC, see Amazon VPC User Guide.
To start using Network Firewall, do the following:
-
(Optional) If you don't already have a VPC that you want to protect, create it in Amazon VPC.
-
In Amazon VPC, in each Availability Zone where you want to have a firewall endpoint, create a subnet for the sole use of Network Firewall.
-
In Network Firewall, create stateless and stateful rule groups, to define the components of the network traffic filtering behavior that you want your firewall to have.
-
In Network Firewall, create a firewall policy that uses your rule groups and specifies additional default traffic filtering behavior.
-
In Network Firewall, create a firewall and specify your new firewall policy and VPC subnets. Network Firewall creates a firewall endpoint in each subnet that you specify, with the behavior that's defined in the firewall policy.
-
In Amazon VPC, use ingress routing enhancements to route traffic through the new firewall endpoints.
Welcome to the Amazon Nimble Studio API reference. This API reference provides methods, schema, resources, parameters, and more to help you get the most out of Nimble Studio.
Nimble Studio is a virtual studio that empowers visual effects, animation, and interactive content teams to create content securely within a scalable, private cloud service.
Welcome to the AWS OpsWorks Stacks API Reference. This guide provides descriptions, syntax, and usage examples for AWS OpsWorks Stacks actions and data types, including common parameters and error codes.
AWS OpsWorks Stacks is an application management service that provides an integrated experience for overseeing the complete application lifecycle. For information about this product, go to the AWS OpsWorks details page.
SDKs and CLI
The most common way to use the AWS OpsWorks Stacks API is by using the AWS Command Line Interface (CLI) or by using one of the AWS SDKs to implement applications in your preferred language. For more information, see:
Endpoints
AWS OpsWorks Stacks supports the following endpoints, all HTTPS. You must connect to one of the following endpoints. Stacks can only be accessed or managed within the endpoint in which they are created.
-
opsworks.us-east-1.amazonaws.com
-
opsworks.us-east-2.amazonaws.com
-
opsworks.us-west-1.amazonaws.com
-
opsworks.us-west-2.amazonaws.com
-
opsworks.ca-central-1.amazonaws.com (API only; not available in the AWS console)
-
opsworks.eu-west-1.amazonaws.com
-
opsworks.eu-west-2.amazonaws.com
-
opsworks.eu-west-3.amazonaws.com
-
opsworks.eu-central-1.amazonaws.com
-
opsworks.ap-northeast-1.amazonaws.com
-
opsworks.ap-northeast-2.amazonaws.com
-
opsworks.ap-south-1.amazonaws.com
-
opsworks.ap-southeast-1.amazonaws.com
-
opsworks.ap-southeast-2.amazonaws.com
-
opsworks.sa-east-1.amazonaws.com
Chef Versions
When you call CreateStack, CloneStack, or UpdateStack we recommend you use the ConfigurationManager
parameter to specify the Chef version. The recommended and default value for Linux stacks is currently 12. Windows stacks use Chef 12.2. For more information, see Chef Versions.
You can specify Chef 12, 11.10, or 11.4 for your Linux stack. We recommend migrating your existing Linux stacks to Chef 12 as soon as possible.