02ad8fce9b
Adds the on-disk examples referenced by plan §11 "Quick start (local, Docker Compose)": - examples/docker-compose-dev.yml: 3 Meilisearch nodes + 1 Miroir orchestrator - examples/dev-config.yaml: Matching Miroir config (16 shards, RF=1) - examples/README.md: Comprehensive docs for running, troubleshooting, teardown - k8s/argo-workflows/miroir-ci-docker-compose-smoke.yaml: CI smoke tests The README.md quick start section already references these examples. Acceptance: ✅ docker-compose-dev.yml boots via docker compose up ✅ dev-config.yaml mounted into Miroir container ✅ examples/README.md documents usage and teardown ✅ CI smoke job exercises compose stack (health + index + search tests) ✅ README.md quick start points to examples/docker-compose-dev.yml Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com> Bead-Id: bf-3lad |
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Miroir
Multi-node Index Replication Orchestrator, Integrated Rebalancing
Miroir is a RAID-like orchestration layer for Meilisearch. It stripes a large index across a fleet of small-RAM Meilisearch nodes with a configurable replication factor, fans out search queries across all shards, and rebalances shard assignments when nodes are added or removed — all using the Meilisearch Community Edition.
The Problem
Meilisearch loads its entire index into memory-mapped LMDB files. A large index that exceeds a single server's available RAM cannot run on that server. The Enterprise Edition's native sharding is gated behind a commercial license. Miroir solves this without it.
How It Works
Client
│
▼
Miroir Orchestrator
├── Write path: hash(doc_id) → assign to shard → write to R replicas
├── Read path: scatter query to all shards → gather → merge ranked results
└── Rebalance: on node add/remove → recompute assignments → migrate minimum shards
Meilisearch Nodes (N instances, each holding a subset of shards)
node-0 node-1 node-2 ... node-N
Replication Factor
Analogous to software RAID — configurable per deployment:
| RF | Redundancy | Node failures tolerated | Capacity |
|---|---|---|---|
| 1 | None (stripe only) | 0 | 100% of fleet |
| 2 | One replica | 1 per shard group | 50% of fleet |
| 3 | Two replicas | 2 per shard group | 33% of fleet |
Key Components
- Orchestrator — proxy that handles shard routing, scatter-gather, result merging, and topology management
- Shard router — consistent hash function (Rendezvous/HRW) mapping document IDs to node assignments; minimal reshuffling on topology change
- Rebalancer — on node add/remove, recomputes assignments and migrates only the shards that changed owners; surviving replicas serve reads during rebuild
- Result merger — normalizes and merges ranked result sets from multiple shards into a single coherent response
Stability
Miroir is currently in development (v0.x). Starting with v1.0, the project provides backward-compatibility commitments for the Meilisearch API layer, miroir-ctl CLI, config file schema, and Helm chart values.
See docs/versioning-policy.md for the full versioning policy, including what constitutes a breaking change and the deprecation process.
Status
Design phase. See docs/ for architecture detail.
Quick Start
Get Miroir running locally in 5 minutes with Docker Compose:
# Clone the repository
git clone https://github.com/jedarden/miroir.git
cd miroir
# Start the development stack (3 Meilisearch nodes + 1 Miroir orchestrator)
docker compose -f examples/docker-compose-dev.yml up -d
# Verify health
curl http://localhost:7700/health
# Expected: {"status":"available"}
# Index documents (Meilisearch-compatible API)
curl -X POST http://localhost:7700/indexes/movies/documents \
-H "Authorization: Bearer dev-key" \
-H "Content-Type: application/json" \
-d '[{"id": 1, "title": "Inception"}, {"id": 2, "title": "Interstellar"}]'
# Search
curl -X POST http://localhost:7700/indexes/movies/search \
-H "Authorization: Bearer dev-key" \
-H "Content-Type: application/json" \
-d '{"q": "inception"}'
# Teardown (removes containers and volumes)
docker compose -f examples/docker-compose-dev.yml down -v
See examples/README.md for more details on the development stack, configuration options, and troubleshooting.
Production deployment
For production deployments, see the Deployment Sizing Guide to determine orchestrator pod count and task store configuration based on your corpus size and query throughput.
When to use
-
Multi-pod with Redis — Recommended for production. Horizontal scaling with 2+ orchestrator pods delivers fault tolerance (zero-downtime rollouts, pod-loss survival) and scales query throughput via HPA. See Deployment Sizing Guide.
-
Single oversized pod — Supported for dev clusters, very small deployments, or constrained environments. A single pod at 4 vCPU / 8 GB is validated but loses HA benefits (no zero-downtime rollouts, no pod-loss survival). See Single-Pod Mode.
-
Large index sharding — When a single Meilisearch node cannot fit your corpus in RAM, Miroir stripes it across multiple nodes with configurable replication factor.
Additional production resources:
- Production Deployment Guide — Operational considerations, monitoring, and troubleshooting
- Per-Feature Scaling Behavior — Which features need Redis, work queues, or nothing
- Versioning Policy — Backward compatibility commitments and upgrade guidance