# Hexeract
> The 6-dimension Rust messaging framework: Mediator, Bus, Outbox, Sagas, Scheduler, Request/Reply.
[](https://crates.io/crates/hexeract-outbox)
[](https://docs.rs/hexeract-outbox)
[](https://github.com/nubster-opensources/hexeract/actions/workflows/ci.yml)
[](./docs/MSRV_POLICY.md)
[](#license)
[](#status)
[](https://www.rust-lang.org/)
Hexeract is a server-side messaging framework written in Rust. It unifies in-process mediator handlers, external message bus transports, transactional outbox and inbox, long-running sagas, scheduled messages and request/reply RPC in a single coherent SDK. The framework relies on Rust's type system and procedural macros to provide compile-time guarantees in place of runtime reflection.
Hexeract is sponsored by [Encelade Technologies](https://encelade.tech).
## Status
🚀 **v0.2.0: Bus RabbitMQ shipped.** Outbox MVP remains stable from v0.1.0, and the bus brings a unified `Transport` trait with a first RabbitMQ backend powered by `lapin`, a consumer worker with ack modes and retry policy, topology helpers, an end-to-end pub/sub example and a `hexeract bus` CLI namespace.
| Transactional outbox (PostgreSQL) | ✅ | ✅ |
| Worker poll loop with `SKIP LOCKED` | ✅ | ✅ |
| Fluent builder API | ✅ | ✅ |
| `hexeract outbox` CLI | ✅ | ✅ |
| Bus core (`Message`, `BusEnvelope`, `Transport`, `Handler<M>`) | ⏳ | ✅ |
| RabbitMQ backend (`lapin` connection pool, publish, consume, retry) | ⏳ | ✅ |
| Topology types (`Exchange`, `Queue`, `Binding`, `RoutingKey`) | ⏳ | ✅ |
| `hexeract bus declare / peek / purge` CLI | ⏳ | ✅ |
| Mediator | ⏳ v0.3.0 | ⏳ v0.3.0 |
| Polyglot bus (NATS, Kafka, SQS) | ⏳ v0.9.0 | ⏳ v0.9.0 |
| Sagas, Scheduler, Request and Reply | ⏳ later | ⏳ later |
See the [CHANGELOG](./CHANGELOG.md) for the detailed history.
## Quick start
### Outbox (PostgreSQL)
Add the PostgreSQL backend to your `Cargo.toml`:
```toml
[dependencies]
hexeract-outbox = "0.1"
hexeract-outbox-postgres = "0.1"
```
Declare a domain event, a handler and wire a worker:
```rust
use std::time::Duration;
use hexeract_core::HandlerContext;
use hexeract_outbox::{Event, Handler, OutboxError, OutboxPublisher};
use hexeract_outbox_postgres::{PgOutboxPublisher, PgOutboxWorkerBuilder};
use serde::{Deserialize, Serialize};
use tokio_util::sync::CancellationToken;
use uuid::Uuid;
#[derive(Debug, Serialize, Deserialize)]
struct UserRegistered { user_id: Uuid }
impl Event for UserRegistered {
const EVENT_TYPE: &'static str = "users.registered";
}
struct AuditWriter;
impl Handler<UserRegistered> for AuditWriter {
type Error = OutboxError;
async fn handle(&self, event: UserRegistered, _ctx: &HandlerContext) -> Result<(), Self::Error> {
// ... write to audit storage ...
Ok(())
}
}
# async fn run(pool: deadpool_postgres::Pool) -> Result<(), Box<dyn std::error::Error>> {
let publisher = PgOutboxPublisher::new(pool.clone(), "audit_outbox")?;
let worker = PgOutboxWorkerBuilder::new(pool.clone())
.table_name("audit_outbox")
.register_handler::<UserRegistered, _>(AuditWriter)
.poll_interval(Duration::from_millis(50))
.build()?;
let cancel = CancellationToken::new();
let join = tokio::spawn(worker.run(cancel.clone()));
// inside a business use case:
let mut client = pool.get().await?;
let mut tx = client.transaction().await?;
let event_id = publisher.publish_in_tx(&mut tx, &UserRegistered { user_id: Uuid::new_v4() }).await?;
tx.commit().await?;
println!("published event {event_id}");
cancel.cancel();
join.await??;
# Ok(()) }
```
See [`docs/tutorial/getting-started.md`](./docs/tutorial/getting-started.md) and the runnable [`examples/`](./crates/hexeract-outbox-postgres/examples/) for the full integration walkthrough.
### Bus (RabbitMQ)
Add the RabbitMQ backend to your `Cargo.toml`:
```toml
[dependencies]
hexeract-bus = "0.2"
hexeract-bus-rabbitmq = "0.2"
```
Declare a domain message, a handler and wire a publisher plus a worker:
```rust
use hexeract_bus::{Handler, Message, Transport};
use hexeract_bus_rabbitmq::{RabbitMqConnection, RabbitMqTransport, RabbitMqWorkerBuilder};
use hexeract_core::HandlerContext;
use serde::{Deserialize, Serialize};
use tokio_util::sync::CancellationToken;
use uuid::Uuid;
#[derive(Debug, Serialize, Deserialize)]
struct OrderPlaced { order_id: Uuid }
impl Message for OrderPlaced {
const MESSAGE_TYPE: &'static str = "orders.placed";
}
struct Projector;
impl Handler<OrderPlaced> for Projector {
type Error = hexeract_bus::BusError;
async fn handle(&self, msg: OrderPlaced, _ctx: &HandlerContext) -> Result<(), Self::Error> {
// ... project to read model, forward to downstream system, ...
let _ = msg.order_id;
Ok(())
}
}
# async fn run(uri: &str) -> Result<(), Box<dyn std::error::Error>> {
let transport = RabbitMqTransport::new(uri).await?;
let consumer_conn = RabbitMqConnection::connect(uri).await?;
let worker = RabbitMqWorkerBuilder::new(consumer_conn)
.queue("orders.received")
.register_handler::<OrderPlaced, _>(Projector)
.build()?;
let cancel = CancellationToken::new();
let join = tokio::spawn(worker.run(cancel.clone()));
let message_id = transport
.publish("orders.received", &OrderPlaced { order_id: Uuid::new_v4() })
.await?;
println!("published message {message_id}");
cancel.cancel();
join.await??;
# Ok(()) }
```
> **In production**, declare your topology once at service startup (or out of band through the CLI). The `topology::ensure_topology` helper and the CLI live for dev convenience; do not call them on the hot path.
The `hexeract bus` CLI provisions and inspects a broker without writing ad-hoc `lapin` scripts:
```bash
export HEXERACT_BUS_URL=amqp://guest:guest@localhost:5672
# 1. Apply a typed topology described in TOML.
hexeract bus declare --topology crates/hexeract-cli/examples/topology.toml
# 2. Peek the first messages of a queue (non-destructive, requeues each delivery).
hexeract bus peek --queue orders.received --count 5
# 3. Drop every message in a queue (gated by an explicit safety flag).
hexeract bus purge --queue orders.received --yes-i-know
```
See the runnable [`crates/hexeract-bus-rabbitmq/examples/03_bus_pubsub.rs`](./crates/hexeract-bus-rabbitmq/examples/03_bus_pubsub.rs) for an end-to-end pub/sub against a real RabbitMQ container, and [`crates/hexeract-cli/examples/topology.toml`](./crates/hexeract-cli/examples/topology.toml) for the topology file format consumed by `hexeract bus declare`.
## Why Hexeract
Building event-driven services in Rust today means manually wiring a broker client, an outbox table, a job queue, a workflow library and a saga state machine together. Hexeract closes that gap with a single SDK that covers the full surface area while keeping each feature independently usable:
- **Mediator**, dispatch commands to handlers in-process, type-safe and reflection-free.
- **Bus**, send messages to RabbitMQ, NATS, Kafka or AWS SQS through a unified transport abstraction.
- **Outbox**, save business state and outgoing messages atomically in a single database transaction.
- **Sagas**, orchestrate long-running workflows with persisted state, retries and compensations.
- **Scheduler**, schedule messages for later delivery, with cron, delays, exponential backoff retries and dead-letter handling.
- **Request/Reply**, perform RPC-style synchronous calls on top of an asynchronous bus via correlation identifiers.
The bet behind Hexeract is that Rust's compile-time guarantees turn the outbox pattern from a vigilance discipline into something the type system enforces.
## What Hexeract is **not**
To stay focused, the following are explicitly out of scope:
- **Not a service mesh.** No automatic mTLS or network policies between services. Use Linkerd or Istio.
- **Not a broker.** Hexeract is a client; you keep your existing RabbitMQ, NATS or Kafka.
- **Not a standalone workflow engine.** Sagas live inside your services, not in a dedicated cluster. Use Temporal or Airflow when you need that shape.
- **Not an event streaming engine.** No real-time stream processing. Use Kafka Streams or Apache Flink.
## Audience
- **Rust backend teams** building microservices who want a cohesive messaging toolkit instead of stacking incompatible crates.
- **Developers migrating to Rust** looking for a cohesive messaging SDK.
- **Polyglot teams** with part of their stack moving to Rust and the need to stay interoperable on a shared bus alongside their Node, Python or Go services.
## Contributing
Contributions are welcome. Please read [`CONTRIBUTING.md`](./CONTRIBUTING.md) first for the workflow and conventions, and [`CODE_OF_CONDUCT.md`](./CODE_OF_CONDUCT.md) for the community guidelines. For vulnerability reports, see [`SECURITY.md`](./SECURITY.md). For open-ended questions and design conversations, use [GitHub Discussions](https://github.com/nubster-opensources/hexeract/discussions).
Stability and versioning are documented in [`docs/SEMVER_POLICY.md`](./docs/SEMVER_POLICY.md) and [`docs/MSRV_POLICY.md`](./docs/MSRV_POLICY.md).
## License
Licensed under either of:
- Apache License, Version 2.0 ([LICENSE-APACHE](LICENSE-APACHE))
- MIT License ([LICENSE-MIT](LICENSE-MIT))
at your option.
### Contribution
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual-licensed as above, without any additional terms or conditions.
See [CONTRIBUTING.md](CONTRIBUTING.md) for details, including the Contributor License Agreement (CLA).
Copyright © Encelade Technologies.