apollo-router

por apollographql

Apollo Router es un enrutador de grafos de alto rendimiento escrito en Rust para ejecutar supergrafos de Apollo Federation 2. Se sitúa frente a tus subgrafos y maneja la planificación de consultas, ejecución y composición de respuestas.

npx skills add https://github.com/apollographql/skills --skill apollo-router

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Apollo Router Config Generator

Apollo Router is a high-performance graph router written in Rust for running Apollo Federation 2 supergraphs. It sits in front of your subgraphs and handles query planning, execution, and response composition.

This skill generates version-correct configuration. Router v1 and v2 have incompatible config schemas in several critical sections (CORS, JWT auth, connectors). Always determine the target version before generating any config.

Step 1: Version Selection

Ask the user before generating any config:

Which Apollo Router version are you targeting?

  [1] Router v2.x (recommended — current LTS, required for Connectors)
  [2] Router v1.x (legacy — end-of-support announced, security patches only)
  [3] Not sure — help me decide

If the user picks [3], display:

Quick guide:

  • Pick v2 if: you're starting fresh, using Apollo Connectors for REST APIs,
    or want backpressure-based overload protection.
  • Pick v1 if: you have an existing deployment and haven't migrated yet.
    Note: Apollo ended active support for v1.x. The v2.10 LTS (Dec 2025)
    is the current baseline. Migration is strongly recommended.

  Tip: If you have an existing router.yaml, you can auto-migrate it:
    router config upgrade router.yaml

Store the selection as ROUTER_VERSION=v1|v2 to gate all subsequent template generation.

Step 2: Environment Selection

Ask: Production or Development?

Production: security-hardened defaults (introspection off, sandbox off, homepage off, subgraph errors hidden, auth required, health check on)
Development: open defaults (introspection on, sandbox on, errors exposed, text logging)

Load the appropriate base template from:

templates/{version}/production.yaml
templates/{version}/development.yaml

Step 3: Feature Selection

Ask which features to include:

Step 4: Gather Parameters

For each selected feature, collect required values.

Use section templates from templates/{version}/sections/ for auth, cors, headers, limits, telemetry, and traffic-shaping.
For Connectors in v2, use templates/v2/sections/connectors.yaml as the source.
For APQ and subscriptions, copy the snippet from the selected base template (templates/{version}/production.yaml or templates/{version}/development.yaml) or from references.
Only offer Connectors when ROUTER_VERSION=v2.

CORS

List of allowed origins (never use "*" for production)

JWT Authentication

JWKS URL
Issuer(s) — note: v1 uses singular issuer, v2 uses plural issuers array

Connectors (v2 only)

Subgraph name and source name (used as connectors.sources.<subgraph>.<source>)
Optional $config values for connector runtime configuration
If migrating old v2 preview config, rename preview_connectors to connectors

Operation Limits

Present the tuning guidance:

Operation depth limit controls how deeply nested a query can be.

  Router default: 100 (permissive — allows very deep queries)
  Recommended starting point: 50

  Lower values (15–25) are more secure but will reject legitimate queries
  in schemas with deep entity relationships or nested fragments.
  Higher values (75–100) are safer for compatibility but offer less
  protection against depth-based abuse.

  Tip: Run your router in warn_only mode first to see what depths your
  real traffic actually uses, then tighten:
    limits:
      warn_only: true

What max_depth would you like? [default: 50]

The same principle applies to max_height, max_aliases, and max_root_fields.

Telemetry

OTEL collector endpoint (default: http://otel-collector:4317)
Prometheus listen port (default: 9090)
Trace sampling rate (default: 0.1 = 10%)

Traffic Shaping

Client-facing rate limit capacity (default: 1000 req/s)
Router timeout (default: 60s)
Subgraph timeout (default: 30s)

Response Caching (v2 only, v2.6.0+)

Security: data leakage risk. Before generating any response cache config, you MUST ask the user which types and fields return user-specific data. Cached data defaults to shared — subgraph responses without Cache-Control: private are visible to all users. User-specific subgraphs must return Cache-Control: private and have private_id configured on the router.

Ask: Which subgraphs serve user-specific data? (e.g., accounts, profiles, carts)
Ask: How do you identify users? (JWT sub claim, session token, API key)
Redis URL (default: redis://localhost:6379)
Default TTL (default: 5m)
Enable active invalidation? If yes: invalidation listen address and shared key
Use section template: templates/v2/sections/response-caching.yaml
For security requirements, schema directives, and advanced config: references/response-caching.md (start with the Security section)

Step 5: Generate Config

Load the correct version template from templates/{version}/
Assemble section templates for supported sectioned features, then merge base-template snippets for APQ/subscriptions as needed
Inject user-provided parameters
Add a comment block at the top stating the target version

Step 6: Validate

Run the post-generation checklist:

All env vars referenced in config are documented
CORS origins don't include wildcards (production)
Rate limiting is on router: (client-facing), not only all: (subgraph)
JWT uses issuers (v2) not issuer (v1), or vice versa
If production: introspection=false, sandbox=false, subgraph_errors=false
Health check is enabled
Homepage is disabled (production)
Run: router config validate <file> if Router binary is available

Required Validation Gate (always run)

After generating or editing any router.yaml, you MUST:

Run validation/checklist.md and report pass/fail for each checklist item.
Run router config validate <path-to-router.yaml> if Router CLI is available.
If Router CLI is unavailable, state that explicitly and still complete the checklist.
Do not present the configuration as final until validation is completed.

Step 7: Conditional Next Steps Handoff

After answering any Apollo Router request (config generation, edits, validation, or general Router guidance), decide whether the user already has runnable prerequisites:

GraphOS-managed path: APOLLO_KEY + APOLLO_GRAPH_REF, or
Local path: a composed supergraph.graphql plus reachable subgraphs

If prerequisites are already present, do not add extra handoff text.

If prerequisites are missing or unknown, end with a concise Next steps handoff (1-3 lines max) that is skill-first and command-free:

Suggest the rover skill to compose or fetch the supergraph schema.
Suggest continuing with apollo-router once the supergraph is ready to validate and run with the generated config.
If subgraphs are missing, suggest apollo-server, graphql-schema, and graphql-operations skills to scaffold and test.

Do not include raw shell commands in this handoff unless the user explicitly asks for commands.

Quick Start (skill-first)

Use this apollo-router skill to generate or refine router.yaml for your environment.
Choose a runtime path:
- GraphOS-managed path: provide APOLLO_KEY and APOLLO_GRAPH_REF (no local supergraph composition required).
- Local supergraph path: use graphql-schema + apollo-server to define/run subgraphs, then use graphql-operations for smoke tests, then use the rover skill to compose or fetch supergraph.graphql.
Use this apollo-router skill to validate readiness (validation/checklist.md) and walk through runtime startup inputs.

Default endpoint remains http://localhost:4000 when using standard Router listen defaults.

If the user asks for executable shell commands, provide them on request. Otherwise keep Quick Start guidance skill-oriented.

Running Modes

Mode	Command	Use Case
Local schema	`router --supergraph ./schema.graphql`	Development, CI/CD
GraphOS managed	`APOLLO_KEY=... APOLLO_GRAPH_REF=my-graph@prod router`	Production with auto-updates
Development	`router --dev --supergraph ./schema.graphql`	Local development
Hot reload	`router --hot-reload --supergraph ./schema.graphql`	Schema changes without restart

Environment Variables

Variable	Description
`APOLLO_KEY`	API key for GraphOS
`APOLLO_GRAPH_REF`	Graph reference (`graph-id@variant`)
`APOLLO_ROUTER_CONFIG_PATH`	Path to `router.yaml`
`APOLLO_ROUTER_SUPERGRAPH_PATH`	Path to supergraph schema
`APOLLO_ROUTER_LOG`	Log level (off, error, warn, info, debug, trace)
`APOLLO_ROUTER_LISTEN_ADDRESS`	Override listen address

Reference Files

Configuration — YAML configuration reference
Headers — Header propagation and manipulation
Plugins — Rhai scripts and coprocessors
Telemetry — Tracing, metrics, and logging
Connectors — Router v2 connectors configuration
Response Caching — Entity/root-field caching, invalidation, and observability (v2 only)
Troubleshooting — Common issues and solutions
Divergence Map — v1 ↔ v2 config differences
Validation Checklist — Post-generation checks

CLI Reference

router [OPTIONS]

Options:
  -s, --supergraph <PATH>    Path to supergraph schema file
  -c, --config <PATH>        Path to router.yaml configuration
      --dev                  Enable development mode
      --hot-reload           Watch for schema changes
      --log <LEVEL>          Log level (default: info)
      --listen <ADDRESS>     Override listen address
  -V, --version              Print version
  -h, --help                 Print help

Ground Rules

ALWAYS determine the target Router version (v1 or v2) before generating config
DEFAULT to v2 for new projects
ALWAYS include a comment block at top of generated config stating the target version
ALWAYS use --dev mode for local development (enables introspection and sandbox)
ALWAYS disable introspection, sandbox, and homepage in production
PREFER GraphOS managed mode for production (automatic updates, metrics)
USE --hot-reload for local development with file-based schemas
NEVER expose APOLLO_KEY in logs or version control
USE environment variables (${env.VAR}) for all secrets and sensitive config
PREFER YAML configuration over command-line arguments for complex setups
TEST configuration changes locally before deploying to production
WARN if user enables allow_any_origin or wildcard CORS in production
RECOMMEND router config upgrade router.yaml for v1 → v2 migration instead of regenerating from scratch
MUST run validation/checklist.md after every router config generation or edit
MUST run router config validate <file> when Router CLI is available
MUST report when CLI validation could not run (for example, Router binary missing)
MUST append a brief conditional handoff when runtime prerequisites are missing or unknown
MUST make this handoff skill-first and avoid raw shell commands unless the user explicitly requests commands
MUST keep Quick Start guidance skill-first and command-free unless the user explicitly requests commands
MUST state that Rover is required only for the local supergraph path; GraphOS-managed runtime does not require local Rover composition
USE max_depth: 50 as the default starting point, not 15 (too aggressive) or 100 (too permissive)
RECOMMEND warn_only: true for initial limits rollout to observe real traffic before enforcing
ONLY offer Response Caching when ROUTER_VERSION=v2 (requires v2.6.0+)
ALWAYS use ${env.*} for Redis URLs, passwords, and invalidation shared keys
NEVER enable response_cache.debug: true in production config
RECOMMEND combining Cache-Control headers (passive TTL) with @cacheTag (active invalidation) for production
ALWAYS ask which fields return user-specific data before generating response cache config — never assume all data is safe to cache as shared
ALWAYS configure private_id for subgraphs that serve user-specific data, and ensure those subgraphs return Cache-Control: private (via @cacheControl(scope: PRIVATE) in Apollo Server, or by setting the header directly in other frameworks)
NEVER generate response cache config without addressing private data — if the user says "no user-specific data", confirm explicitly before proceeding
ALWAYS bind the invalidation endpoint to 127.0.0.1, NEVER 0.0.0.0 in production