| name | devtools-instrumentation |
| description | Analyze library codebase for critical architecture and debugging points, add strategic event emissions. Identify middleware boundaries, state transitions, lifecycle hooks. Consolidate events (1 not 15), debounce high-frequency updates, DRY shared payload fields, guard emit() for production. Transparent server/client event bridging. |
| type | core |
| library | @tanstack/devtools-event-client |
| library_version | 0.10.12 |
| requires | devtools-event-client |
| sources | ["packages/event-bus-client/src/plugin.ts","packages/event-bus/src/client/client.ts","packages/event-bus/src/server/server.ts","packages/devtools-client/src/index.ts","docs/building-custom-plugins.md","docs/bidirectional-communication.md"] |
devtools-instrumentation
Prerequisite: Read the devtools-event-client skill first for EventClient creation, event maps, and emit()/on() API.
Strategic placement of emit() calls inside a library to send high-value diagnostic data to TanStack Devtools panels. Maximum insight with minimum noise.
Key Insight
The event bus transparently bridges server/client and cross-tab boundaries. emit() on the server arrives on the client via WebSocket/SSE. emit() in one tab reaches other tabs via BroadcastChannel. No transport code needed -- just emit at the right place.
For prototyping, throw in many events. For production, consolidate down to the fewest events that carry the most information.
Where to Instrument
Emit at architecture boundaries, not inside implementation details:
- Middleware/interceptor entry and exit -- wrap the chain, not each middleware
- State transitions -- when state moves between logical phases (idle -> loading -> success/error)
- Lifecycle hooks -- mount, unmount, connect, disconnect, ready
- Error boundaries -- caught exceptions, retries, fallbacks
- User-initiated actions processed -- after fully applied, not before
Do NOT emit from: internal utility functions, loop iterations, getter/setter accesses, intermediate computation steps.
Core Patterns
1. Middleware/Interceptor Instrumentation
Wrap the pipeline at the boundary, not each middleware individually.
import { EventClient } from '@tanstack/devtools-event-client'
type RouterEvents = {
'request-processed': {
id: string
method: string
path: string
duration: number
middlewareChain: Array<{ name: string; durationMs: number }>
status: number
error?: string
}
}
class RouterDevtoolsClient extends EventClient<RouterEvents> {
constructor() {
super({
pluginId: 'my-router',
enabled: process.env.NODE_ENV !== 'production',
})
}
}
export const routerDevtools = new RouterDevtoolsClient()
async function runMiddlewarePipeline(
req: Request,
middlewares: Middleware[],
): Promise<Response> {
const requestId = crypto.randomUUID()
const pipelineStart = performance.now()
const chain: Array<{ name: string; durationMs: number }> = []
let status = 200
let error: string | undefined
for (const mw of middlewares) {
const mwStart = performance.now()
try {
await mw.handle(req)
} catch (e) {
error = e instanceof Error ? e.message : String(e)
status = 500
break
}
chain.push({ name: mw.name, durationMs: performance.now() - mwStart })
}
routerDevtools.emit('request-processed', {
id: requestId,
method: req.method,
path: req.url,
duration: performance.now() - pipelineStart,
middlewareChain: chain,
status,
error,
})
return new Response(null, { status })
}
ONE event per request, not 2N events (start + end for each middleware).
2. State Transition Emission
Emit when the state machine moves between phases, not on every internal mutation.
type QueryEvents = {
'query-lifecycle': {
queryKey: string
from: 'idle' | 'loading' | 'success' | 'error' | 'stale'
to: 'idle' | 'loading' | 'success' | 'error' | 'stale'
data?: unknown
error?: string
fetchDuration?: number
timestamp: number
}
}
class QueryDevtoolsClient extends EventClient<QueryEvents> {
constructor() {
super({
pluginId: 'my-query-lib',
enabled: process.env.NODE_ENV !== 'production',
})
}
}
export const queryDevtools = new QueryDevtoolsClient()
class Query {
#state: QueryState = 'idle'
private transition(
to: QueryState,
extra?: Partial<QueryEvents['query-lifecycle']>,
) {
const from = this.#state
if (from === to) return
this.#state = to
queryDevtools.emit('query-lifecycle', {
queryKey: this.key,
from,
to,
timestamp: Date.now(),
...extra,
})
}
async fetch() {
this.transition('loading')
const start = performance.now()
try {
const data = await this.fetcher()
this.transition('success', {
data: structuredClone(data),
fetchDuration: performance.now() - start,
})
} catch (e) {
this.transition('error', {
error: e instanceof Error ? e.message : String(e),
fetchDuration: performance.now() - start,
})
}
}
}
3. Consolidated Events with DRY Payloads
When multiple events share fields, build a shared base and spread it.
class Store {
private basePayload() {
return {
storeName: this.#name,
version: this.#version,
sessionId: this.#sessionId,
timestamp: Date.now(),
}
}
dispatch(
action: string,
updater: (s: Record<string, unknown>) => Record<string, unknown>,
) {
const prevState = structuredClone(this.#state)
this.#state = updater(this.#state)
this.#version++
storeDevtools.emit('store-updated', {
...this.basePayload(),
action,
prevState,
nextState: structuredClone(this.#state),
})
}
reset(initial: Record<string, unknown>) {
this.#state = initial
this.#version++
storeDevtools.emit('store-reset', this.basePayload())
}
}
4. Debouncing High-Frequency Emissions
Reactive systems, scroll handlers, and streaming data can trigger hundreds of emissions per second. Debounce or throttle these.
function createDebouncedEmitter<TEvents extends Record<string, any>>(
client: EventClient<TEvents>,
delayMs: number,
) {
const timers = new Map<string, ReturnType<typeof setTimeout>>()
return function debouncedEmit<K extends keyof TEvents & string>(
event: K,
payload: TEvents[K],
) {
const existing = timers.get(event)
if (existing) clearTimeout(existing)
timers.set(
event,
setTimeout(() => {
client.emit(event, payload)
timers.delete(event)
}, delayMs),
)
}
}
const debouncedEmit = createDebouncedEmitter(storeDevtools, 100)
signal.subscribe((value) => {
debouncedEmit('signal-updated', { value, timestamp: Date.now() })
})
For leading+trailing (throttle), use the same pattern with a lastEmit timestamp check to emit immediately on the leading edge.
5. Production Guarding
enabled: false is the primary guard -- emit() returns immediately with no allocation, no queuing, no connection.
class MyLibDevtools extends EventClient<MyEvents> {
constructor() {
super({
pluginId: 'my-lib',
enabled: process.env.NODE_ENV !== 'production',
})
}
}
For expensive payload construction (e.g., structuredClone of large state), guard at the call site:
if (process.env.NODE_ENV !== 'production') {
myDevtools.emit('state-snapshot', {
state: structuredClone(largeState),
timestamp: Date.now(),
})
}
Important: The Vite plugin strips @tanstack/react-devtools from production. The root import of @tanstack/devtools-event-client also no-ops and is tree-shaken out when process.env.NODE_ENV !== 'development', so emit() calls cost nothing in production by default. Import from @tanstack/devtools-event-client/production if you deliberately want events in production. The enabled option remains available for runtime control.
6. Server/Client Transparent Bridging
The same emit() works on server and client:
- Client: dispatches
CustomEvent on window -> ClientEventBus -> other tabs via BroadcastChannel + server via WebSocket
- Server: dispatches on
globalThis.__TANSTACK_EVENT_TARGET__ -> ServerEventBus -> all WebSocket/SSE clients
routerDevtools.emit('request-processed', {
id: crypto.randomUUID(),
method: req.method,
path: new URL(req.url).pathname,
duration: performance.now() - start,
middlewareChain: chain,
status: 200,
})
Instrumentation Checklist
- Map architecture boundaries (middleware chain, state machine, lifecycle hooks, error paths)
- Design ONE consolidated event per boundary with full context payload
- Keep event map small (3-7 types typical, not 15-30)
- Create EventClient with
enabled: process.env.NODE_ENV !== 'production'
- Use shared base payloads (DRY) for fields common across events
- Debounce any emission point that fires >10 times/second
- Guard expensive payload construction with
process.env.NODE_ENV check
- Test with
debug: true to see [tanstack-devtools:{pluginId}-plugin] prefixed logs
Common Mistakes
HIGH: Emitting too many granular events
Wrong -- 15 events per request:
routerDevtools.emit('request-start', { id, method, path })
routerDevtools.emit('middleware-1-start', { id, name: 'auth' })
routerDevtools.emit('middleware-1-end', { id, name: 'auth', duration: 5 })
routerDevtools.emit('response-end', { id, duration: 50 })
Correct -- 1 event with all data:
routerDevtools.emit('request-processed', {
id,
method,
path,
duration: 50,
middlewareChain: [
{ name: 'auth', durationMs: 5 },
{ name: 'cors', durationMs: 1 },
],
status: 200,
})
Source: maintainer interview
HIGH: Emitting in hot loops without debouncing
Wrong:
signal.subscribe((value) => {
devtools.emit('signal-updated', { value, timestamp: Date.now() })
})
Correct:
const debouncedEmit = createDebouncedEmitter(devtools, 100)
signal.subscribe((value) => {
debouncedEmit('signal-updated', { value, timestamp: Date.now() })
})
Source: docs/bidirectional-communication.md
MEDIUM: Not emitting at architecture boundaries
Wrong -- instrumented inside a helper:
function parseQueryString(url: string) {
const params = new URLSearchParams(url)
devtools.emit('query-parsed', { params: Object.fromEntries(params) })
return params
}
Correct -- instrumented at the handler boundary:
function handleRequest(req: Request) {
const params = parseQueryString(req.url)
const result = processRequest(params)
devtools.emit('request-processed', {
path: req.url,
params: Object.fromEntries(params),
result: result.summary,
duration: performance.now() - start,
})
}
Source: maintainer interview
MEDIUM: Hardcoding repeated payload fields
Wrong:
devtools.emit('action-a', {
storeName: this.name,
version: this.version,
sessionId: this.sessionId,
timestamp: Date.now(),
data,
})
devtools.emit('action-b', {
storeName: this.name,
version: this.version,
sessionId: this.sessionId,
timestamp: Date.now(),
other,
})
Correct:
const base = this.basePayload()
devtools.emit('action-a', { ...base, data })
devtools.emit('action-b', { ...base, other })
Source: maintainer interview