--- title: "Multinode Deployment" description: "Deploy multiple Bifrost nodes with shared configuration for high availability in OSS deployments" icon: "layer-group" --- ## Overview Running multiple Bifrost nodes provides high availability, load distribution, and fault tolerance for your AI gateway. This guide covers the recommended approach for deploying multiple Bifrost nodes in OSS deployments. Running multiple OSS Bifrost nodes with a Postgres backend is not supported. Here is the short technical explanation: - Bifrost is designed to keep all critical information in memory, including provider configs, API keys, budgets, usage, and traffic distribution. - Once a node is initialized, it does not read this information back from the database. - In the Enterprise version, we use a slightly modified version of RAFT to synchronize this state in real time across nodes, while the database acts only as a dumb store. - Based on our current view, OSS is sufficient for startups and medium-scale teams, and can easily handle around 3,000–5,000 RPS on a single instance. - If you need high availability and enterprise capabilities such as real-time synchronization, the Enterprise plan is the right fit. - And yes, that is part of how we draw the OSS vs Enterprise line 💰. ### OSS vs Enterprise | Aspect | OSS Approach | Enterprise Approach | |--------|--------------|---------------------| | **Configuration Source** | Shared `config.json` file | Database with P2P sync | | **Sync Mechanism** | File sharing (ConfigMap, volumes) | Gossip protocol (real-time) | | **Config Updates** | Modify file + restart nodes | UI/API with automatic propagation | --- ## How It Works All configuration in Bifrost is loaded into memory at startup. For OSS multinode deployments, the recommended approach is to use `config.json` **without** `config_store` enabled. ### `config.json` as Single Source of Truth When you deploy without `config_store`: - **No database involved** - `config.json` is the only configuration source - **Shared file** - All nodes read from the same `config.json` file - **Identical configuration** - Since the source is shared, all nodes automatically have the same configuration - **No sync needed** - The shared file itself ensures consistency OSS multi-node setup --- ## Why not to use `config_store` for Multinode OSS? Using `config_store` (database-backed configuration) with multiple nodes in OSS creates a **synchronization problem**: 1. **Config changes are local** - When you update configuration via the UI or API, it updates the database and the in-memory config on that specific node only 2. **No propagation mechanism** - Other nodes don't know about the change; they keep their existing in-memory configuration 3. **Nodes become out of sync** - Different nodes end up with different configurations 4. **Restart required** - You'd have to restart all nodes after every config change to bring them back in sync This defeats the purpose of having database-backed configuration with real-time updates. Without P2P clustering (Enterprise feature), there's no mechanism to notify other nodes of configuration changes. For OSS multinode deployments, use the shared `config.json` approach instead. ### Enterprise Solution Bifrost Enterprise includes **P2P clustering** with gossip protocol that automatically syncs configuration changes across all nodes in real-time. See the [Clustering documentation](/enterprise/clustering) for details. --- ## Setting Up Multinode OSS Deployment ### Example config.json Create a `config.json` **without** `config_store` or `logs_store`: If you use PostgreSQL for `logs_store`, ensure the target database is UTF8 encoded. See [PostgreSQL UTF8 Requirement](../../quickstart/gateway/setting-up#postgresql-utf8-requirement). ```json { "$schema": "https://www.getbifrost.ai/schema", "client": { "drop_excess_requests": false, "enable_logging": false }, "config_store": { "enabled": false }, "logs_store": { "enabled": true, "type": "postgres", "config": {...} }, "providers": { "openai": { "keys": [ { "name": "openai-primary", "value": "env.OPENAI_API_KEY", "models": ["gpt-4o", "gpt-4o-mini"], "weight": 1.0 } ] }, "anthropic": { "keys": [ { "name": "anthropic-primary", "value": "env.ANTHROPIC_API_KEY", "models": ["claude-sonnet-4-20250514", "claude-3-5-haiku-20241022"], "weight": 1.0 } ] } } } ``` Notice `config_store` is disabled. This ensures all configuration comes from the file only. ### Kubernetes Deployment Use a ConfigMap to share the same configuration across all pods: ```yaml apiVersion: v1 kind: ConfigMap metadata: name: bifrost-config namespace: default data: config.json: | { "$schema": "https://www.getbifrost.ai/schema", "client": { "drop_excess_requests": false, "enable_logging": false }, "config_store": { "enabled": false }, "logs_store": { "enabled": true, "type": "postgres", "config": {...} }, "providers": { "openai": { "keys": [ { "name": "openai-primary", "value": "env.OPENAI_API_KEY", "models": ["gpt-4o", "gpt-4o-mini"], "weight": 1.0 } ] } } } --- apiVersion: apps/v1 kind: Deployment metadata: name: bifrost namespace: default spec: replicas: 3 selector: matchLabels: app: bifrost template: metadata: labels: app: bifrost spec: containers: - name: bifrost image: maximhq/bifrost:latest ports: - containerPort: 8080 name: http env: - name: OPENAI_API_KEY valueFrom: secretKeyRef: name: provider-secrets key: openai-api-key volumeMounts: - name: config mountPath: /app readOnly: true resources: requests: cpu: 250m memory: 256Mi limits: cpu: 1000m memory: 1Gi livenessProbe: httpGet: path: /health port: 8080 initialDelaySeconds: 10 periodSeconds: 10 readinessProbe: httpGet: path: /health port: 8080 initialDelaySeconds: 5 periodSeconds: 5 volumes: - name: config configMap: name: bifrost-config --- apiVersion: v1 kind: Service metadata: name: bifrost namespace: default spec: type: LoadBalancer selector: app: bifrost ports: - port: 80 targetPort: 8080 protocol: TCP name: http ``` ### Docker Compose Share the configuration using a bind mount: ```yaml version: '3.8' services: nginx: image: nginx:alpine ports: - "80:80" volumes: - ./nginx.conf:/etc/nginx/nginx.conf:ro depends_on: - bifrost-1 - bifrost-2 - bifrost-3 bifrost-1: image: maximhq/bifrost:latest environment: - OPENAI_API_KEY=${OPENAI_API_KEY} - ANTHROPIC_API_KEY=${ANTHROPIC_API_KEY} volumes: - ./config.json:/app/config.json:ro expose: - "8080" bifrost-2: image: maximhq/bifrost:latest environment: - OPENAI_API_KEY=${OPENAI_API_KEY} - ANTHROPIC_API_KEY=${ANTHROPIC_API_KEY} volumes: - ./config.json:/app/config.json:ro expose: - "8080" bifrost-3: image: maximhq/bifrost:latest environment: - OPENAI_API_KEY=${OPENAI_API_KEY} - ANTHROPIC_API_KEY=${ANTHROPIC_API_KEY} volumes: - ./config.json:/app/config.json:ro expose: - "8080" ``` **nginx.conf** for load balancing: ```nginx events { worker_connections 1024; } http { upstream bifrost { least_conn; server bifrost-1:8080; server bifrost-2:8080; server bifrost-3:8080; } server { listen 80; location / { proxy_pass http://bifrost; proxy_set_header Host $host; proxy_set_header X-Real-IP $remote_addr; proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for; proxy_connect_timeout 60s; proxy_send_timeout 60s; proxy_read_timeout 60s; } location /health { access_log off; return 200 "healthy\n"; } } } ``` ### Bare Metal / VM Deployment For bare metal or VM deployments, distribute the configuration file using: - **NFS mount** - Mount a shared NFS directory containing `config.json` - **rsync** - Sync the config file from a central location to all nodes - **Configuration management** - Use Ansible, Chef, or Puppet to deploy identical configs Example with rsync: ```bash # On config server - push to all nodes for node in node1 node2 node3; do rsync -avz /etc/bifrost/config.json $node:/etc/bifrost/config.json done # Restart nodes after config update for node in node1 node2 node3; do ssh $node "systemctl restart bifrost" done ``` --- ## Updating Configuration To update configuration in a multinode OSS deployment: 1. **Modify the shared `config.json` file** - Update the ConfigMap (Kubernetes) - Edit the shared file (Docker Compose / bare metal) 2. **Restart the nodes** - Rolling restart is supported - nodes can be restarted one at a time - Each node picks up the new configuration on startup ### Kubernetes Rolling Restart ```bash # Update ConfigMap kubectl apply -f configmap.yaml # Trigger rolling restart kubectl rollout restart deployment/bifrost # Watch the rollout kubectl rollout status deployment/bifrost ``` ### Docker Compose Restart ```bash # After updating config.json docker-compose restart bifrost-1 docker-compose restart bifrost-2 docker-compose restart bifrost-3 ``` --- ## Best Practices ### Use Environment Variables for Secrets Never put API keys directly in `config.json`. Use the `env.` prefix to reference environment variables: ```json { "providers": { "openai": { "keys": [ { "value": "env.OPENAI_API_KEY" } ] } } } ``` Then provide the actual keys via environment variables or Kubernetes secrets. ### Load Balancer Configuration Always put a load balancer in front of your Bifrost nodes: - **Kubernetes**: Use a Service with `type: LoadBalancer` or an Ingress - **Docker/VMs**: Use nginx, HAProxy, or a cloud load balancer ### Health Checks Configure health checks to ensure traffic only goes to healthy nodes: - **Liveness endpoint**: `GET /health` - **Readiness endpoint**: `GET /health` ### Resource Allocation For production deployments: ```yaml resources: requests: cpu: 500m memory: 512Mi limits: cpu: 2000m memory: 2Gi ``` --- ## Summary | Scenario | Recommendation | |----------|----------------| | Single node | Use `config_store` for UI access | | Multinode OSS | Use shared `config.json` without `config_store` | | Multinode Enterprise | Use P2P clustering with `config_store` | For OSS multinode deployments, the shared `config.json` approach provides a simple, reliable way to keep all nodes in sync without the complexity of database synchronization.