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Donovan HOANG
Donovan HOANG

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SNS vs. SQS vs. EventBridge: Choosing the Right AWS Messaging Service

TL; DR.

Messaging and events management in AWS allow for building scalable and decoupled applications. AWS offers three key messaging services:

  1. Amazon SNS: Best for real-time notifications and broadcasting messages to multiple subscribers with high throughput.
  2. Amazon SQS: Ideal for decoupling components and enabling reliable message queuing for asynchronous processing.
  3. Amazon EventBridge: Perfect for creating complex event-driven architectures by connecting events from multiple sources, including SaaS applications.

Choosing the right service depends on your specific application needs—whether for notifications, queuing, or event orchestration.


The usage of messaging and events management allows our application to decouple and scale in a very efficient way. Messaging solutions play a major role in enabling these capabilities by providing communication between different components of an infrastructure. AWS offers several powerful messaging services, each designed to address specific needs and use cases: Amazon Simple Notification Service (SNS), Amazon Simple Queue Service (SQS), and Amazon EventBridge.

To take full benefits of the messages-based services of AWS, you need to choose the one that fits the best your context. Whether you need real-time notifications, reliable message queuing, or complex event-driven workflows, understanding the features and use cases of these services is essential.

This article aims to help you leverage AWS messaging services to build efficient applications in the cloud. We will explore all the features and typical use cases to compare the pros and cons of each service.

Understanding the AWS Messaging Services

  • Amazon Simple Notification Service (SNS): SNS is a fully managed publish/subscribe (pub/sub) messaging service that simplifies the decoupling and scaling of microservices, distributed systems, and serverless applications. It supports high-throughput message broadcasting to multiple subscribers via diverse delivery mechanisms, including HTTP/HTTPS endpoints, email, SMS, and AWS Lambda. SNS also offers seamless integration with other AWS services, enabling efficient notification and alerting workflows.

  • Amazon Simple Queue Service (SQS): SQS is a fully managed message queuing service designed to decouple application components, enhancing reliability and scalability. It supports two queue types: standard queues, which ensure at-least-once delivery and allow best-effort message ordering, and FIFO queues, which guarantee exactly-once processing and strict message order. SQS facilitates durable message retention, configurable visibility timeouts, and batch processing capabilities, making it ideal for asynchronous task handling. SQS also supports Dead-Letter Queues (DLQ), which allow for handling messages that can’t be processed successfully, enhancing fault tolerance in production systems.

  • Amazon EventBridge: EventBridge is a serverless event bus service tailored for event-driven architectures. It enables seamless connection and routing of events from AWS services, custom applications, and third-party SaaS providers to designated targets. EventBridge features advanced filtering, transformation options, and a schema registry to simplify event discovery and management. Its built-in scalability and support for complex workflows make it an excellent choice for modern, event-driven applications.

Key Features

Amazon SNS

  • Publish/Subscribe Model: SNS uses a pub/sub messaging model to send messages to multiple subscribers.
  • Message Delivery: Delivery mechanisms include HTTP/HTTPS, email, SMS, and Lambda functions.
  • Fan-out Architecture: Enables the ability to fan out messages to multiple endpoints simultaneously.

Amazon SQS

  • Queue-Based Messaging: SQS uses a queue-based system to store messages until they are processed.
  • Types of Queues: Includes standard queues (at-least-once delivery, best-effort ordering) and FIFO queues (exactly-once processing, ordered delivery).
  • Message Retention and Visibility Timeout: Concepts include the message retention period and visibility timeout.
  • Dead-Letter Queues: Allows for handling messages that cannot be processed successfully, enhancing reliability in production environments.

Amazon EventBridge

  • Event Bus Model: EventBridge uses an event bus to route events from different sources to target AWS services.
  • Schema Registry and discovery: Features a schema registry that allows you to discover, create, and manage event schemas.
  • Integrated SaaS Applications: Supports integration of events from SaaS applications directly into EventBridge.

Use Cases

Amazon SNS

  • Real-Time Notifications: Examples include sending real-time notifications to users via SMS, email, or mobile push notifications.
  • Fan-Out: Scenarios where the same message needs to be sent to multiple endpoints, such as updating multiple microservices.

Amazon SQS

  • Decoupling Microservices: Examples include decoupling application components to improve fault tolerance and scalability.
  • Batch Processing: Scenarios such as processing orders or logs where messages need to be processed in batches.

Amazon EventBridge

  • Event-Driven Architectures: Examples include building event-driven applications that react to changes in data or state.
  • SaaS Integration: Scenarios involving integrating and routing events from third-party SaaS applications to AWS services.

Integration Examples

  • E-commerce Application: Use SQS to queue orders for asynchronous processing, ensuring scalability and fault tolerance, while SNS can be used to send shipping notifications to customers via email or SMS.
  • Fan-Out Pattern: A common pattern is to use an SNS topic to fan out messages to multiple SQS queues. This allows parallel processing of the same event by different consumers, enabling flexible and scalable system architectures.

Cost Considerations

Service Pricing Model
Amazon SNS Charged based on the number of published messages and the protocol used for delivery (e.g., HTTP/S, SMS, email).
Amazon SQS Charged based on the number of requests and message size. Standard queue: $0.40 per 1 million requests; FIFO queue: $0.50 per 1 million requests. Additional charges apply for long polling.
Amazon EventBridge Charged based on the number of events published and the number of rules applied. $1.00 per 1 million events published. Other features incur other charges.

Understanding these cost models allows for better optimization of AWS expenses by aligning the service choice with architectural needs and budget constraints.

Understanding these cost models can help optimize overall AWS costs by selecting the right service and architecture for your needs.

Comparison

Feature Amazon SNS Amazon SQS Amazon EventBridge
Delivery Model Pub/Sub Queue-based Event bus
Use Case Real-time notifications, fan-out Decoupling systems, batching Event-driven architectures
Scalability High throughput High throughput High scalability
Message Ordering Not guaranteed FIFO queues provide ordering Not guaranteed
Integration Multi-protocol endpoints Queue-based processing SaaS and AWS service integration
Complexity Handling Low Medium High

Decision help

  • When to Use SNS: Best for scenarios requiring real-time notifications and message broadcasting to multiple endpoints.
  • When to Use SQS: Ideal for decoupling components, ensuring reliable message processing, and handling message queues in fault-tolerant systems.
  • When to Use EventBridge: Optimal for building event-driven architectures that integrate multiple event sources, including SaaS applications, and require complex workflows.

Thanks for reading! Hope this helped you to understand how to take advantage of AWS messaging services.

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