# Modernization Roadmap

## Purpose

This document defines how BEDS transitions from proof-of-concept broker plumbing to a modern, production-grade platform.

This is not a strict PHP feature port checklist. The objective is to preserve architectural strengths while replacing legacy mechanisms where better patterns now exist.

## Product Direction

- BEDS is a product rewrite in Rust, not a language translation exercise.
- AMQP-first remains a core invariant.
- Service role is config-driven from one binary.
- The white-paper target is a Twitter-like backend showcase (SPEW) launched by configuration and template/domain declarations, with zero core framework code changes.

## Current Program Mode

The project is currently in POC-first mode.

Immediate objective:
- Stand up two brokers (rBroker and wBroker)
- Attach them to AMQP service
- Prove message flow and broker replies

Guardrails are intentionally deferred until POC behavior is stable.

## Must-Keep Invariants

1. AMQP-first data path for application operations.
2. Config-driven role selection (appServer, admin, segundo, tercero).
3. Template-driven domain onboarding.
4. Database-agnostic broker and factory boundaries.
5. DBA-owned schema boundary (no ad hoc query logic in app layer).

## Modernization Requirements (First Pass)

### Message Contracts

1. Define versioned request and response envelopes.
2. Standardize correlation and causation identifiers.
3. Validate payload shape at broker ingress with deterministic error responses.

### Reliability Semantics

1. Define explicit ack and nack policy per error class.
2. Add retry strategy and dead-letter queue handling.
3. Add idempotency strategy for mutating operations.

### Broker Runtime

1. Add supervised broker lifecycle (respawn failed tasks).
2. Add graceful shutdown and queue drain behavior.
3. Add health states and readiness semantics.

### Configuration System

1. Add schema-level config validation at startup.
2. Add explicit config versioning and migration path.
3. Define environment and secret handling policy.

### Factory and Templates

1. Build typed template registry and dispatch.
2. Separate template metadata from adapter execution logic.
3. Preserve template capability toggles (audit, journal, locking, cache, retention).

### Observability and Lineage

1. Keep and formalize event lineage fields.
2. Add structured telemetry for queue lag, throughput, retries, and latency distributions.
3. Provide operator-facing diagnostics for stuck consumers and poison messages.

### Security Baseline

1. Enforce authenticated producer and consumer connectivity.
2. Define service-origin trust checks for internal events.
3. Centralize authorization for template access boundaries.

### Data and Cache Behavior

1. Define cache invalidation contracts for write events.
2. Define read consistency options per template.
3. Add optimistic concurrency where needed.

### Verification and Testing

1. Add message-contract compatibility tests.
2. Keep integration tests with real RabbitMQ in CI where possible.
3. Add failure-path and soak test milestones before code-complete.

## Execution Sequence

### Phase A: POC Transport Stability (Now)

Goal:
- Prove broker startup and message flow for rec.read and rec.write.

Definition of done:
- Spawn tests pass.
- Message round-trip smoke tests pass.
- Wiki reflects current tested behavior.

### Phase B: Minimal Core Dispatch

Goal:
- Replace handler stubs with basic factory wiring for one template path.

Definition of done:
- fetch and write events route through a real dispatch path.
- End-to-end request and response schema is stable for first template.

### Phase C: Guardrail Install

Goal:
- Add reliability and validation layers without breaking proven POC behavior.

Definition of done:
- Deterministic ingress validation.
- Explicit ack/nack behavior.
- Basic dead-letter and retry policy in place.

### Phase D: Productization Baseline

Goal:
- Hardening for repeatable deployment and operations.

Definition of done:
- Supervision and graceful shutdown.
- Operator diagnostics and telemetry.
- Config schema and migration strategy.

### Phase E: White-Paper Readiness

Goal:
- Demonstrate zero core code changes for new product behavior.

Definition of done:
- SPEW backend behavior enabled through config and template/domain declarations.
- Benchmark and lineage evidence captured for white-paper material.

## Acceptance Gates

1. Functionality gate: broker flow and dispatch correctness.
2. Reliability gate: bounded behavior under failures.
3. Operability gate: observable and diagnosable runtime.
4. Product gate: new domain behavior without core edits.

## Documentation Rule

Any substantive architecture or runtime behavior change must update relevant wiki pages in the same change set.