Skip to end of metadata
Go to start of metadata

You are viewing an old version of this page. View the current version.

Compare with Current View Page History

« Previous Version 10 Next »

Sagas are coordinated in two ways:

  1. Through Orchestration - a target service (can be a standalone or a participant in the transaction) is designated as the coordinator of the steps/state to complete a set distributed transaction by invoking/emitting events to other services either asynchronously or synchronously.

  2. Through Choreography - each service invokes/emits an event that prompts the next service in line to complete its transaction either asynchronously or synchronously.

Distributed transaction matrix

Communication

Consistency

Coordination

Synchronous

Atomic

Orchestration

Synchronous

Atomic

Choreography

Synchronous

Eventual

Orchestration

Synchronous

Eventual

Choreography

Asynchronous

Atomic

Orchestration

Asynchronous

Atomic

Choreography

Asynchronous

Eventual

Orchestration

Asynchronous

Eventual

Choreography

Saga State Machine for scenarios

To better visualize the state transitions you can refer to the "Vessel Registry Controller Microservice: Saga Orchestrator" post to get more details. We will omit that section from this document as it is well documented there.

Saga Pattern 1 - Synchronous / Atomic / Orchestration

Pattern Description

An orchestrator in this case the VRG coordinates the workflow of the involved services. All communication in this workflow are synchronous. The transaction boundary specifies that the transactions will either all succeed or none will. If one of the services involved in this workflow, fails, the orchestrator issues compensating calls to the preceding services to undo the changes that were made, as shown in the “Transaction Failed Path” diagram (Red Lines).

Pattern Characteristics

Coupling

This saga pattern implementation exhibits high degree of coupling. This pattern closely resembles the communication style of a monolithic application.

Complexity

Low level of complexity are associated with implementing this pattern, because it reduces the chances of race conditions and deadlocks.

Responsiveness/Availability

Due the coordination done by the orchestator and the synchronous communication it will exhibit bottlenecks, and reduced performance under high loads. There is also a high chance that this implementation will fail when the services the orchestrator coordinates during the workflow are in an unrecoverable error state.

Scale/Elasticity

Due to the communication style and coordination, scaling this pattern will prove to be difficult.

Saga Pattern 2 - Synchronous / Atomic / Choreography

Glossary

Term

Definition

Atomic

Bottlenecks

Elasticity

CDS

VRG

VDS

VRS

WMS

Sync

  • No labels