nemo-relay-build-plugin
建置並封裝可重複使用的 NeMo Relay 執行時期行為,作為可透過設定啟用的外掛程式,並具備驗證與支援回滾的安全註冊機制。
npx skills add https://github.com/nvidia/nemo-relay --skill nemo-relay-build-pluginBuild a Plugin
Use this skill when a user wants to package reusable NeMo Relay runtime behavior behind plugin configuration.
Use This When
Use this skill when the behavior should be activated by shared config and reused across applications, teams, or process startup paths.
Common cases:
- Register subscribers, guardrails, intercepts, or a small bundle of related runtime behavior.
- Validate operator-supplied config before changing runtime behavior.
- Give reusable behavior a stable plugin
kindand activation lifecycle. - Package behavior that should be enabled, disabled, or rolled out through plugin config rather than repeated application startup code.
Do Not Use This When
Do not build a plugin when a narrower NeMo Relay surface is enough:
- One request or tenant needs temporary behavior -> use scope-local middleware.
- The user only needs first-time scopes, tool calls, or LLM calls ->
nemo-relay-instrument-calls. - The user only needs to choose an exporter path ->
nemo-relay-setup-observability. - The behavior depends on live callables, provider clients, file handles, credentials, or framework objects inside config.
Embedded Plugin Model
- Plugins package reusable process-level behavior.
- A plugin exposes a stable
kindstring and receives component-local config from a shared plugin document. - Plugin config must be JSON-compatible across Rust, Python, Node.js, files, tests, and deployment systems.
- Validation is deterministic and side-effect free. It inspects config and returns structured diagnostics before runtime behavior changes.
- Registration runs after validation and installs real behavior through
PluginContext, such as subscribers, guardrails, request intercepts, execution intercepts, or stream execution intercepts. PluginContextgives the plugin system enough ownership to qualify runtime names and roll back partial setup when activation fails.- Disabled components should still validate when possible so operators can find config problems before rollout.
Default Path
- Decide whether a plugin is actually needed. Prefer direct instrumentation or scope-local behavior when the use case is not reusable process-level behavior.
- Pick one first runtime surface: subscriber-oriented export, sanitize guardrail, conditional guardrail, request intercept, execution intercept, or stream execution intercept.
- Choose a stable plugin
kindand the smallest JSON-compatible config shape. - Define diagnostics for missing fields, unsupported values, unknown fields, unsafe config, and invalid field combinations.
- Validate config before initialization. Validation must not open network connections, create clients, register middleware, or mutate process state.
- Register runtime behavior through
PluginContext, not by hand-registering global behavior inside application startup. - Test activation, disabled components, validation failures, and registration failure rollback.
- Document how to enable the plugin, what config fields are supported, and how to roll back the component.
- For a dynamic plugin that should provide structured fields in
nemo-relay plugins edit, declare theconfig_schemacapability and reference a local Draft 7 or Draft 2020-12 JSON Schema file from[config_schema].pathinrelay-plugin.toml. Schema-less plugins remain editable as raw JSON objects.
Config Shape
The top-level plugin document contains version, components, and policy.
Each component supplies the plugin kind, enabled, and component-local
config:
{
"version": 1,
"components": [
{
"kind": "redaction-policy",
"enabled": true,
"config": {
"preset": "strict"
}
}
],
"policy": {
"unknown_component": "warn",
"unknown_field": "warn",
"unsupported_value": "error"
}
}
Keep business logic in plugin code, not in config. Use references to secrets or endpoints rather than embedding sensitive values.
Binding Pointers
- Python:
nemo_relay.plugin - Node.js:
nemo-relay-node/plugin - Rust:
nemo_relay::plugin - Go and raw FFI are source-first or advanced surfaces.
Use the same canonical snake_case config keys across bindings and files. Node
helper functions can be camelCase, but plugin config objects remain
snake_case.
Failure Modes To Avoid
- Do not put callables, clients, credentials, framework objects, file handles, or caches in plugin config.
- Do not perform runtime registration during validation.
- Do not skip validation for disabled components.
- Do not register directly through global startup code when
PluginContextshould own the runtime behavior. - Do not combine unrelated subscribers, request transforms, and policy checks in the first plugin unless one config document clearly owns the bundle.
- Do not export raw production payloads or secrets. Add telemetry sanitization before data leaves the process.
- Do not ignore partial activation failures. Roll back or surface a clear diagnostic.
Validation Checklist
- Stable plugin
kindchosen. - Config shape is JSON-compatible and uses
snake_case. - Required fields and unsupported values produce stable diagnostics.
- Unknown fields follow the configured policy.
- Disabled components still report config problems where possible.
- Initialization installs behavior through
PluginContext. - A forced registration failure does not leave partial runtime behavior active.
- Docs or examples show how to enable and roll back the plugin.
- Dynamic plugins that need structured CLI editing package a valid local
JSON Schema and declare
config_schemainrelay-plugin.toml.
Use Another Skill When
- You only need to wrap direct tool or LLM calls ->
nemo-relay-instrument-calls - You need to set up traces or exporters without packaging a plugin ->
nemo-relay-setup-observability - You need to debug plugin activation, missing events, or load failures ->
nemo-relay-debug-runtime-integration
Related Skills
nemo-relay-instrument-callsnemo-relay-setup-observabilitynemo-relay-debug-runtime-integration