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Phase 6: Valkey availability mirror — move read path off Postgres

Browse Source 
Mitra-availability state (online flag, deactivated flag, per-mitra session
count, heartbeat liveness) mirrored into Valkey so the customer beacon
+ pairing blast + dashboard counts no longer hit Postgres on the hot path.
Postgres remains the durable source of truth; Valkey state is fully
derivable via seedFromPostgres on startup + reconnect.

Schema
- mitras:online           SET    — mirror of is_online
- mitras:deactivated      SET    — mirror of is_active=false
- mitra:capacity:<id>     STRING — active+pending_payment session count
- mitra💓<id>    STRING — ISO timestamp of last ping
- availability:snapshot   JSON   — beacon cache, TTL 10s, cluster-shared

Write paths (Postgres first, best-effort Valkey)
- setOnline/setOffline mirror SADD/SREM + heartbeat SET/DEL
- updateMitraStatus mirrors mitras:deactivated AND revokes auth_sessions
  on deactivate (bounds the "ghost online" window to access-token TTL)
- heartbeat is Valkey-only on the hot path; the per-ping Postgres UPDATE
  on last_heartbeat_at is eliminated (was 1,200 ops/min at prod scale)
- chat_session lifecycle (accept/end/reroute/extension/expiry) calls
  recomputeCapacityForMitra after each UPDATE — derive-from-truth avoids
  the bookkeeping risk of per-transition INCR/DECR

Read paths (Valkey-first, Postgres fallback on Valkey error)
- isMitraReachable: SISMEMBER mitras:online + heartbeat freshness
- findAvailableMitras: SDIFF + pipelined GETs, filter by capacity + heartbeat
- countAvailableMitrasFromCache: Valkey-driven, cached cluster-wide 10s TTL
- dashboard online count: SCARD
- Each reader wraps Valkey ops in try/catch → Postgres fallback on outage

Heartbeat path on /api/mitra/status/heartbeat
- resolveMitra preHandler replaced with heartbeatGuard: SISMEMBER on
  mitras:deactivated (~0 DB hits per ping). Falls back to full DB
  resolveMitra if Valkey is unreachable so a Valkey outage doesn't
  silently accept heartbeats from deactivated mitras.

Three sweeps, env-configurable cadences
- MITRA_AUTO_OFFLINE_SWEEP_SECONDS (30) — Valkey-driven stale detection
- HEARTBEAT_MIRROR_INTERVAL_SECONDS (60) — batched UPSERT writes
  Valkey timestamps to Postgres last_heartbeat_at via UNNEST (1 statement
  per cycle, idempotent across instances)
- VALKEY_ONLINE_MIRROR_SWEEP_SECONDS (300) — periodic reseed heals drift

Startup
- restoreActiveTimers → seedFromPostgres → bind listeners
- onValkeyReady re-runs the seed on every reconnect (cold start + reseed
  on Valkey restart, no manual intervention)

Failure semantics
- Read fallback: every Valkey read wrapped, falls back to existing
  Postgres JOIN query — system stays correct during Valkey outage,
  performance degrades not breaks
- Write best-effort: Postgres write commits before Valkey is touched;
  Valkey errors log + continue; reconciliation sweep heals drift
- Auto-offline sweep aborts entirely on Valkey error (does NOT mass-
  offline via Postgres scan during Valkey hiccup)

Tests
- New: 32 integration tests in mitra-status.valkey-mirror.test.js
  covering seed, write-through, fallbacks, capacity lifecycle,
  auto-offline sweep, heartbeat mirror, deactivation flow, beacon cache
- Updated: fixtures.js seeds Valkey alongside Postgres when isOnline=true
- Updated: helpers/db.js resetDb also flushes test Valkey
- Fixed 2 pre-existing session-timer flakes (string IDs failed uuid
  parse; vi.advanceTimersByTimeAsync raced real Postgres I/O)
- All 124/124 backend tests pass (was 90/92)

Docs
- requirement/valkey-online-mirror-plan.md — canonical plan
- requirement/valkey-online-mirror-testing.md — manual E2E checklist
- requirement/deployment.md — infra + Valkey persistence guidance for
  prod (Memorystore Standard tier recommended; migration from
  self-hosted Valkey is zero-downtime via reseed-from-Postgres)

Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
This commit is contained in:
Ramadhan Sjamsani
2026-05-25 18:07:55 +08:00
parent 3fff4b1c6e
commit 553dbac52f
20 changed files with 1839 additions and 82 deletions
Download Patch File Download Diff File Expand all files Collapse all files

19
backend/.env.example
View File

@@ -41,6 +41,25 @@ ADMIN_PASSWORD=ChangeMe123!
# Path to Firebase service-account JSON (falls back to backend/firebase-service-account.json)
FIREBASE_SERVICE_ACCOUNT_PATH=
# --- Valkey availability mirror cadences ---
#
# All env-driven per backend/CLAUDE.md Config-Source Convention. Defaults match
# requirement/valkey-online-mirror-plan.md. Floor-clamped by their getters.
# How often the auto-offline sweep checks heartbeat freshness (seconds).
# The staleness threshold itself (`stale_after_seconds`) is CC-tunable via app_config.
MITRA_AUTO_OFFLINE_SWEEP_SECONDS=30
# How often heartbeat timestamps are batched from Valkey → Postgres (seconds).
# Per-ping heartbeat writes go to Valkey only; this preserves forensic
# `last_heartbeat_at` in Postgres with up to <interval> seconds of lag.
HEARTBEAT_MIRROR_INTERVAL_SECONDS=60
# How often Valkey state is re-derived from Postgres to heal drift (seconds).
# Belt-and-braces against failed best-effort Valkey writes, out-of-band Postgres
# mutations, or evictions. Set to 0 to disable (not recommended).
VALKEY_ONLINE_MIRROR_SWEEP_SECONDS=300
# --- Phase 5: Xendit (dev-safe defaults: integration disabled) ---
#
# Flip XENDIT_ENABLED=true in staging/prod once secret + webhook token are populated.

43
backend/src/plugins/valkey.js
View File

@@ -4,10 +4,31 @@ let pub
let sub
let client
// 'ready' listeners (registered before connect; fire on initial connect AND each
// reconnect). Used by services that need to reseed Valkey state from Postgres.
const readyListeners = new Set()
const attachReadyHandler = (instance) => {
instance.on('ready', () => {
for (const fn of readyListeners) {
// Fire-and-forget; each listener owns its own error handling.
Promise.resolve()
.then(() => fn())
.catch((err) => console.error('[valkey] ready listener failed:', err))
}
})
}
export const onValkeyReady = (fn) => {
readyListeners.add(fn)
return () => readyListeners.delete(fn)
}
export const getValkeyClient = () => {
if (!client) {
const url = process.env.VALKEY_URL || 'redis://localhost:6379'
client = new Redis(url)
attachReadyHandler(client)
}
return client
}
@@ -51,3 +72,25 @@ export const subscribe = (channel, callback) => {
console.log(`[valkey] unsubscribed from ${channel}`)
}
}
// --- Thin wrappers used by the mitra-availability mirror ---
//
// Each wrapper uses the shared `client` (separate ioredis instance from pub/sub
// to keep subscribe state isolated). Callers in services/* wrap these in
// try/catch and fall back to Postgres on error — see the plan doc.
export const sadd = (key, ...members) => getValkeyClient().sadd(key, ...members)
export const srem = (key, ...members) => getValkeyClient().srem(key, ...members)
export const sismember = async (key, member) =>
(await getValkeyClient().sismember(key, member)) === 1
export const smembers = (key) => getValkeyClient().smembers(key)
export const sdiff = (...keys) => getValkeyClient().sdiff(...keys)
export const scard = (key) => getValkeyClient().scard(key)
export const set = (key, value) => getValkeyClient().set(key, value)
export const get = (key) => getValkeyClient().get(key)
export const del = (...keys) => getValkeyClient().del(...keys)
export const incr = (key) => getValkeyClient().incr(key)
export const decr = (key) => getValkeyClient().decr(key)
export const exists = (key) => getValkeyClient().exists(key)
export const pipeline = () => getValkeyClient().pipeline()
export const multi = () => getValkeyClient().multi()

32
backend/src/routes/public/mitra.status.routes.js
View File

@@ -1,6 +1,8 @@
import { authenticate } from '../../plugins/auth.js'
import { getMitraById } from '../../services/mitra.service.js'
import * as mitraStatusService from '../../services/mitra-status.service.js'
import * as valkey from '../../plugins/valkey.js'
import { VK_MITRAS_DEACTIVATED } from '../../services/mitra-status.service.js'
import { UserType } from '../../constants.js'
export const mitraStatusRoutes = async (app) => {
@@ -27,6 +29,32 @@ export const mitraStatusRoutes = async (app) => {
request.mitra = mitra
}
// Lightweight heartbeat guard: no Postgres SELECT in the hot path. Checks
// `mitras:deactivated` in Valkey (maintained on every updateMitraStatus) and
// falls back to the full resolveMitra/DB check if Valkey is unreachable so a
// Valkey outage doesn't accept heartbeats from deactivated mitras silently.
const heartbeatGuard = async (request, reply) => {
if (request.auth?.userType !== UserType.MITRA) {
return reply.code(403).send({
success: false,
error: { code: 'FORBIDDEN', message: 'Mitra account required' },
})
}
try {
const deactivated = await valkey.sismember(VK_MITRAS_DEACTIVATED, request.auth.userId)
if (deactivated) {
return reply.code(403).send({
success: false,
error: { code: 'ACCOUNT_INACTIVE', message: 'Account is inactive' },
})
}
return
} catch (err) {
console.warn('[heartbeat] valkey check failed, falling back to DB:', err.message)
return resolveMitra(request, reply)
}
}
app.post('/online', { preHandler: [authenticate, resolveMitra] }, async (request, reply) => {
await mitraStatusService.setOnline(request.mitra.id)
return reply.send({ success: true, data: { is_online: true } })
@@ -37,8 +65,8 @@ export const mitraStatusRoutes = async (app) => {
return reply.send({ success: true, data: { is_online: false } })
})
app.post('/heartbeat', { preHandler: [authenticate, resolveMitra] }, async (request, reply) => {
await mitraStatusService.heartbeat(request.mitra.id)
app.post('/heartbeat', { preHandler: [authenticate, heartbeatGuard] }, async (request, reply) => {
await mitraStatusService.heartbeat(request.auth.userId)
return reply.send({ success: true })
})

48
backend/src/server.js
View File

@@ -1,7 +1,13 @@
import 'dotenv/config'
import { buildPublicApp } from './app.public.js'
import { buildInternalApp } from './app.internal.js'
import { autoOfflineStaleMitras } from './services/mitra-status.service.js'
import { autoOfflineStaleMitras, seedFromPostgres, mirrorHeartbeatsToPostgres } from './services/mitra-status.service.js'
import {
getMitraAutoOfflineSweepSeconds,
getHeartbeatMirrorIntervalSeconds,
getValkeyOnlineMirrorSweepSeconds,
} from './services/config.service.js'
import { initFirebase } from './plugins/firebase.js'
import { restoreActiveTimers } from './services/session-timer.service.js'
import { expireStalePaymentRequests, registerPairingSubscriber } from './services/payment.service.js'
@@ -23,18 +29,22 @@ const start = async () => {
}
initFirebase()
const publicApp = await buildPublicApp()
const internalApp = await buildInternalApp()
// restoreActiveTimers runs bulk UPDATEs on chat_sessions to clean up stale
// ACTIVE/CLOSING rows from before the restart. Run it BEFORE seedFromPostgres
// so the seed sees the post-cleanup state and capacity counters are accurate.
await restoreActiveTimers()
await seedFromPostgres()
await publicApp.listen({ port: PUBLIC_PORT, host: '0.0.0.0' })
console.log(`Public API listening on port ${PUBLIC_PORT}`)
await internalApp.listen({ port: INTERNAL_PORT, host: INTERNAL_HOST })
console.log(`Internal API listening on ${INTERNAL_HOST}:${INTERNAL_PORT}`)
// Restore session timers for active sessions (on server restart)
await restoreActiveTimers()
// Phase 5: wire pairing service as a subscriber to payment_request.confirmed events.
// Must happen AFTER all services are loaded so the subscriber registration sees
// the EventEmitter set up by payment.service.js at module-load time.
@@ -53,7 +63,8 @@ const start = async () => {
console.error('Startup reconciliation failed:', err)
}
// Auto-offline mitras with stale heartbeat (every 30s)
// Auto-offline mitras with stale heartbeat (env-driven cadence, default 30s).
// Valkey-driven per requirement/valkey-online-mirror-plan.md.
setInterval(async () => {
try {
const count = await autoOfflineStaleMitras()
@@ -61,7 +72,32 @@ const start = async () => {
} catch (err) {
console.error('Auto-offline check failed:', err)
}
}, 30_000)
}, getMitraAutoOfflineSweepSeconds() * 1000)
// Batched heartbeat mirror: Valkey heartbeat timestamps → Postgres
// last_heartbeat_at (default 60s). Keeps forensic column current without
// per-ping DB writes. One UNNEST UPDATE per tick; idempotent across instances.
setInterval(async () => {
try {
await mirrorHeartbeatsToPostgres()
} catch (err) {
console.error('Heartbeat mirror failed:', err)
}
}, getHeartbeatMirrorIntervalSeconds() * 1000)
// Reconciliation sweep: heal Valkey/Postgres drift (default 300s; 0 disables).
// Belt-and-braces against failed best-effort Valkey writes, out-of-band
// Postgres mutations, evictions. Idempotent — just runs the seed.
const reconciliationSeconds = getValkeyOnlineMirrorSweepSeconds()
if (reconciliationSeconds > 0) {
setInterval(async () => {
try {
await seedFromPostgres()
} catch (err) {
console.error('Valkey reconciliation sweep failed:', err)
}
}, reconciliationSeconds * 1000)
}
// Expire stale payment_requests + reconcile lost subscriber work (every 60s).
// Pending past expires_at → expired (no failure row).

3
backend/src/services/closure.service.js
View File

@@ -3,6 +3,7 @@ import { publish } from '../plugins/valkey.js'
import { clearSessionTimer, clearClosureGraceTimer, startClosureGraceTimer } from './session-timer.service.js'
import { sendToSessionParticipant } from '../plugins/websocket.js'
import { sendPushNotification } from './notification.service.js'
import { recomputeCapacityForMitra } from './mitra-status.service.js'
import { UserType, SessionStatus, EndedBy, WsMessage } from '../constants.js'
const sql = getDb()
@@ -59,6 +60,7 @@ export const completeSession = async (sessionId) => {
RETURNING id, customer_id, mitra_id, status, ended_at
`
if (!session) return null
await recomputeCapacityForMitra(session.mitra_id)
// Notify both parties, FCM fallback if WebSocket is down
const data = { type: WsMessage.SESSION_COMPLETED, session_id: sessionId }
@@ -109,6 +111,7 @@ export const initiateEarlyEnd = async (sessionId, userType) => {
code: 'SESSION_NOT_ACTIVE', statusCode: 409,
})
}
await recomputeCapacityForMitra(session.mitra_id)
clearSessionTimer(sessionId)
startClosureGraceTimer(sessionId)

28
backend/src/services/config.service.js
View File

@@ -149,6 +149,34 @@ export const getMitraHeartbeatCadenceSeconds = () => {
return Number.isFinite(parsed) && parsed >= 5 ? parsed : 30
}
// --- Valkey availability mirror — env-driven cadences ---
//
// Per requirement/valkey-online-mirror-plan.md. All three are operational
// knobs (env, per backend/CLAUDE.md Config-Source Convention), not
// operator-tunable. Defaults match the plan; values are floor-clamped.
export const getMitraAutoOfflineSweepSeconds = () => {
const raw = process.env.MITRA_AUTO_OFFLINE_SWEEP_SECONDS
if (!raw || raw.trim() === '') return 30
const parsed = Number.parseInt(raw, 10)
return Number.isFinite(parsed) && parsed >= 5 ? parsed : 30
}
export const getHeartbeatMirrorIntervalSeconds = () => {
const raw = process.env.HEARTBEAT_MIRROR_INTERVAL_SECONDS
if (!raw || raw.trim() === '') return 60
const parsed = Number.parseInt(raw, 10)
return Number.isFinite(parsed) && parsed >= 10 ? parsed : 60
}
export const getValkeyOnlineMirrorSweepSeconds = () => {
const raw = process.env.VALKEY_ONLINE_MIRROR_SWEEP_SECONDS
if (!raw || raw.trim() === '') return 300
const parsed = Number.parseInt(raw, 10)
if (parsed === 0) return 0 // explicit disable
return Number.isFinite(parsed) && parsed >= 30 ? parsed : 300
}
// --- Phase 5: Xendit integration ---
//
// Env-driven (per backend/CLAUDE.md Config-Source Convention). All five values

18
backend/src/services/dashboard.service.js
View File

@@ -1,19 +1,33 @@
import { getDb } from '../db/client.js'
import * as valkey from '../plugins/valkey.js'
import { VK_MITRAS_ONLINE } from './mitra-status.service.js'
import { SessionStatus, TopicSensitivity } from '../constants.js'
const sql = getDb()
// Valkey-fast SCARD with Postgres fallback. The CC dashboard polls every few
// seconds; SCARD is sub-ms so this keeps the dashboard responsive at any scale.
const getOnlineMitrasCount = async () => {
try {
return await valkey.scard(VK_MITRAS_ONLINE)
} catch (err) {
console.warn('[dashboard] valkey unavailable, falling back to DB:', err.message)
const [{ c }] = await sql`SELECT COUNT(*)::int AS c FROM mitra_online_status WHERE is_online = true`
return c
}
}
export const getDashboardStats = async () => {
const [
[{ active_chats }],
[{ online_mitras }],
online_mitras,
[{ pending_requests }],
[{ sensitive_total }],
[{ sensitive_last_30d_total }],
[{ sensitive_last_30d_sensitive }],
] = await Promise.all([
sql`SELECT COUNT(*) AS active_chats FROM chat_sessions WHERE status IN (${SessionStatus.ACTIVE}, ${SessionStatus.PENDING_PAYMENT})`,
sql`SELECT COUNT(*) AS online_mitras FROM mitra_online_status WHERE is_online = true`,
getOnlineMitrasCount(),
sql`SELECT COUNT(*) AS pending_requests FROM chat_sessions WHERE status IN (${SessionStatus.SEARCHING}, ${SessionStatus.PENDING_ACCEPTANCE})`,
sql`SELECT COUNT(*) AS sensitive_total FROM chat_sessions WHERE topic_sensitivity = ${TopicSensitivity.SENSITIVE}`,
sql`SELECT COUNT(*) AS sensitive_last_30d_total FROM chat_sessions WHERE created_at >= NOW() - INTERVAL '30 days'`,

6
backend/src/services/extension.service.js
View File

@@ -1,7 +1,7 @@
import { getDb } from '../db/client.js'
import { sendToSessionParticipant, isUserOnlineWs } from '../plugins/websocket.js'
import { extendSessionTimer, clearClosureGraceTimer, startClosureGraceTimer } from './session-timer.service.js'
import { isMitraReachable } from './mitra-status.service.js'
import { isMitraReachable, recomputeCapacityBySession } from './mitra-status.service.js'
import { consumePaymentSession, failPaymentSession, getPaymentSession } from './payment.service.js'
import { sendPushNotification } from './notification.service.js'
import {
@@ -104,6 +104,7 @@ export const requestExtension = async (sessionId, customerId, { duration_minutes
// Pause the session
await sql`UPDATE chat_sessions SET status = ${SessionStatus.EXTENDING} WHERE id = ${sessionId}`
await recomputeCapacityBySession(sessionId)
// Resolve timeout once so we can both surface it in the WS payload and start the server-side timer.
const timeoutMs = await getExtensionTimeoutMs()
@@ -213,6 +214,7 @@ const finalizeExtension = async (extensionId, sessionId, accepted, viaTimeout) =
// Resume session
await sql`UPDATE chat_sessions SET status = ${SessionStatus.ACTIVE} WHERE id = ${extension.session_id}`
await recomputeCapacityBySession(extension.session_id)
// Record transaction
await sql`
@@ -249,6 +251,7 @@ const finalizeExtension = async (extensionId, sessionId, accepted, viaTimeout) =
}
await sql`UPDATE chat_sessions SET status = ${SessionStatus.CLOSING} WHERE id = ${extension.session_id}`
await recomputeCapacityBySession(extension.session_id)
sendToSessionParticipant(sessionId, UserType.CUSTOMER, {
type: WsMessage.EXTENSION_RESPONSE,
@@ -331,6 +334,7 @@ const timeoutExtension = async (extensionId, sessionId, mitraId) => {
// Move session to closing & notify both parties (matches the explicit-reject UX).
await sql`UPDATE chat_sessions SET status = ${SessionStatus.CLOSING} WHERE id = ${sessionId}`
await recomputeCapacityBySession(sessionId)
sendToSessionParticipant(sessionId, UserType.CUSTOMER, {
type: WsMessage.EXTENSION_RESPONSE,
accepted: false,

322
backend/src/services/mitra-status.service.js
View File

@@ -1,24 +1,80 @@
import { getDb } from '../db/client.js'
import { SessionStatus } from '../constants.js'
import { getMitraPingConfig, getMaxCustomersPerMitra } from './config.service.js'
import { subscribe } from '../plugins/valkey.js'
import * as valkey from '../plugins/valkey.js'
import { subscribe, onValkeyReady } from '../plugins/valkey.js'
const sql = getDb()
// --- Short-TTL availability cache for the 5s-poll endpoint ---
// In-memory snapshot { available, count, expiresAt }. The cache:
// - is recomputed at most once per AVAILABILITY_TTL_MS (10s backstop)
// - is invalidated explicitly when CC changes max_customers_per_mitra (call invalidateAvailabilityCache())
// This keeps customer polls off the DB hot path while staying close to real time.
const AVAILABILITY_TTL_MS = 10_000
let availabilityCache = null // { available, count, expiresAt }
// Per requirement/valkey-online-mirror-plan.md § Schema.
export const VK_MITRAS_ONLINE = 'mitras:online'
export const VK_MITRAS_DEACTIVATED = 'mitras:deactivated'
export const vkCapacityKey = (mitraId) => `mitra:capacity:${mitraId}`
export const vkHeartbeatKey = (mitraId) => `mitra:heartbeat:${mitraId}`
export const invalidateAvailabilityCache = () => {
availabilityCache = null
// Rebuilds Valkey availability state from Postgres. Called on backend startup,
// on Valkey reconnect (via onValkeyReady), and by the reconciliation sweep.
// Idempotent — DEL + bulk SADD/SET produces the same final state on every run.
export const seedFromPostgres = async () => {
try {
const [onlineRows, deactRows, capacityRows] = await Promise.all([
sql`SELECT mitra_id FROM mitra_online_status WHERE is_online = true`,
sql`SELECT id FROM mitras WHERE is_active = false`,
sql`
SELECT mitra_id, COUNT(*)::int AS c FROM chat_sessions
WHERE mitra_id IS NOT NULL
AND status IN (${SessionStatus.ACTIVE}, ${SessionStatus.PENDING_PAYMENT})
GROUP BY mitra_id
`,
])
const pipe = valkey.pipeline()
pipe.del(VK_MITRAS_ONLINE)
pipe.del(VK_MITRAS_DEACTIVATED)
const now = new Date().toISOString()
if (onlineRows.length) {
pipe.sadd(VK_MITRAS_ONLINE, ...onlineRows.map((r) => r.mitra_id))
// Seed heartbeats with NOW so the first sweep after restart doesn't
// mass-offline. Mitras refresh on their next ping anyway.
for (const r of onlineRows) pipe.set(vkHeartbeatKey(r.mitra_id), now)
// Reset capacity for currently-online mitras; overlay real counts below.
// Offline mitras' stale capacity keys don't affect reads (SDIFF excludes them).
for (const r of onlineRows) pipe.set(vkCapacityKey(r.mitra_id), 0)
}
if (deactRows.length) {
pipe.sadd(VK_MITRAS_DEACTIVATED, ...deactRows.map((r) => r.id))
}
for (const r of capacityRows) pipe.set(vkCapacityKey(r.mitra_id), r.c)
await pipe.exec()
console.log(
`[valkey-mirror] seed: ${onlineRows.length} online, ${deactRows.length} deactivated, ${capacityRows.length} with active sessions`,
)
} catch (err) {
console.error('[valkey-mirror] seed failed:', err)
}
}
// Subscribe once at module load so other-instance config updates also bust this cache.
// Single-instance: the local mutator already invalidates, so this is a no-op extra.
// Re-seed on every Valkey reconnect (fires on initial connect too).
onValkeyReady(seedFromPostgres)
// --- Beacon snapshot cache (Valkey-backed, cluster-shared) ---
// `availability:snapshot` JSON `{available, count}`, TTL 10s. All backend
// instances share the same cache: one Valkey-driven compute per 10s
// cluster-wide regardless of how many customers are polling.
const AVAILABILITY_CACHE_KEY = 'availability:snapshot'
const AVAILABILITY_TTL_SECONDS = 10
export const invalidateAvailabilityCache = async () => {
try {
await valkey.del(AVAILABILITY_CACHE_KEY)
} catch (err) {
console.error('[valkey-mirror] invalidateAvailabilityCache failed:', err)
}
}
// Bust the shared cache when CC changes max_customers_per_mitra (any instance).
let _subscribed = false
const ensureSubscribed = () => {
if (_subscribed) return
@@ -43,6 +99,39 @@ export const ensureStatusRow = async (mitraId) => {
`
}
// Best-effort Valkey writer. Postgres remains source of truth; a Valkey hiccup
// shouldn't fail the originating request — the reconciliation sweep heals drift.
const tryValkey = async (fn, label) => {
try { await fn() } catch (err) {
console.error(`[valkey-mirror] ${label} failed:`, err)
}
}
// Recompute `mitra:capacity:<id>` from chat_sessions truth. Called after every
// chat_session state change that could affect a mitra's occupied-slot count.
// Recompute-from-truth avoids the bookkeeping risks of per-transition INCR/DECR
// (double-counts, missed transitions across all the UPDATE sites in pairing,
// closure, extension, session-timer, session services).
export const recomputeCapacityForMitra = async (mitraId) => {
if (!mitraId) return
const [row] = await sql`
SELECT COUNT(*)::int AS c FROM chat_sessions
WHERE mitra_id = ${mitraId}
AND status IN (${SessionStatus.ACTIVE}, ${SessionStatus.PENDING_PAYMENT})
`
await tryValkey(
() => valkey.set(vkCapacityKey(mitraId), row.c),
`recomputeCapacity ${mitraId}`,
)
}
// Lookup mitra_id from the session, then recompute. Use this from UPDATE sites
// where the session's mitra_id may not be in local scope.
export const recomputeCapacityBySession = async (sessionId) => {
const [row] = await sql`SELECT mitra_id FROM chat_sessions WHERE id = ${sessionId}`
if (row?.mitra_id) await recomputeCapacityForMitra(row.mitra_id)
}
export const setOnline = async (mitraId) => {
await ensureStatusRow(mitraId)
const now = new Date()
@@ -54,6 +143,14 @@ export const setOnline = async (mitraId) => {
await sql`
INSERT INTO mitra_online_logs (mitra_id, status) VALUES (${mitraId}, 'online')
`
await tryValkey(async () => {
const pipe = valkey.pipeline()
pipe.sadd(VK_MITRAS_ONLINE, mitraId)
pipe.set(vkHeartbeatKey(mitraId), now.toISOString())
await pipe.exec()
}, `setOnline ${mitraId}`)
invalidateAvailabilityCache()
}
@@ -73,16 +170,32 @@ export const setOffline = async (mitraId) => {
await sql`
INSERT INTO mitra_online_logs (mitra_id, status) VALUES (${mitraId}, 'offline')
`
await tryValkey(async () => {
const pipe = valkey.pipeline()
pipe.srem(VK_MITRAS_ONLINE, mitraId)
pipe.del(vkHeartbeatKey(mitraId))
await pipe.exec()
}, `setOffline ${mitraId}`)
invalidateAvailabilityCache()
}
// Heartbeat hot path: Valkey-only. Per-ping Postgres UPDATE eliminated; the
// 60s batched heartbeat-mirror job (mirrorHeartbeatsToPostgres) writes
// `last_heartbeat_at` to Postgres for forensics/restart safety.
//
// NOTE: there is intentionally no `is_online = true` gate here (the old SQL
// UPDATE had one). The Valkey SET is global; if a mitra heartbeats while
// `is_online=false` in Postgres, their TTL key gets refreshed but they're
// still not in `mitras:online`, so blast eligibility is unchanged. The
// reconciliation sweep will clean up the orphan heartbeat key.
export const heartbeat = async (mitraId) => {
const now = new Date()
await sql`
UPDATE mitra_online_status
SET last_heartbeat_at = ${now}, updated_at = ${now}
WHERE mitra_id = ${mitraId} AND is_online = true
`
const now = new Date().toISOString()
await tryValkey(
() => valkey.set(vkHeartbeatKey(mitraId), now),
`heartbeat ${mitraId}`,
)
}
export const getStatus = async (mitraId) => {
@@ -130,39 +243,95 @@ export const getOnlineLogs = async (mitraId, { page = 1, limit = 50 } = {}) => {
return { items, total: Number(count), page, limit }
}
// Valkey-driven: enumerate mitras:online, read each heartbeat timestamp from
// Valkey, find stales, then bulk-flip Postgres + clean up Valkey.
//
// Failure semantics: if any Valkey op throws, the sweep aborts entirely. We
// never mass-offline mitras via a Postgres scan because Valkey is unreachable
// — that would risk false-offlining a fleet during a Valkey hiccup.
export const autoOfflineStaleMitras = async () => {
const pingConfig = await getMitraPingConfig()
// If ping is not required, skip the auto-offline sweep entirely
if (!pingConfig.require_ping) return 0
// stale_after_seconds is the operator-facing knob — what they set is what
// they get. No multiplier, no implicit "tolerate N missed heartbeats"
// contract baked in. The CC PATCH validates that the value is >= the env-
// driven heartbeat cadence so single missed pings can't flip a mitra
// offline.
const staleSeconds = pingConfig.stale_after_seconds
const stale = await sql`
UPDATE mitra_online_status
SET is_online = false, last_offline_at = NOW(), updated_at = NOW()
WHERE is_online = true
AND last_heartbeat_at < NOW() - ${staleSeconds + ' seconds'}::interval
RETURNING mitra_id
`
for (const row of stale) {
await sql`
INSERT INTO mitra_online_logs (mitra_id, status) VALUES (${row.mitra_id}, 'offline')
`
let onlineIds, heartbeatValues
try {
onlineIds = await valkey.smembers(VK_MITRAS_ONLINE)
if (!onlineIds.length) return 0
const pipe = valkey.pipeline()
for (const id of onlineIds) pipe.get(vkHeartbeatKey(id))
const results = await pipe.exec()
heartbeatValues = results.map((r) => r[1])
} catch (err) {
console.warn('[auto-offline] valkey unavailable, skipping this tick:', err.message)
return 0
}
// Capacity may have changed (mitra went offline) — invalidate the customer-facing
// availability cache so the next poll reflects reality.
if (stale.length > 0) invalidateAvailabilityCache()
const cutoff = Date.now() - pingConfig.stale_after_seconds * 1000
const stale = []
for (let i = 0; i < onlineIds.length; i++) {
const ts = heartbeatValues[i]
if (!ts || Date.parse(ts) < cutoff) stale.push(onlineIds[i])
}
if (!stale.length) return 0
await sql`
UPDATE mitra_online_status
SET is_online = false, last_offline_at = NOW(), updated_at = NOW()
WHERE mitra_id = ANY(${sql.array(stale)}::uuid[]) AND is_online = true
`
for (const id of stale) {
await sql`INSERT INTO mitra_online_logs (mitra_id, status) VALUES (${id}, 'offline')`
}
await tryValkey(async () => {
const cleanup = valkey.pipeline()
cleanup.srem(VK_MITRAS_ONLINE, ...stale)
for (const id of stale) cleanup.del(vkHeartbeatKey(id))
await cleanup.exec()
}, `auto-offline cleanup (${stale.length} stale)`)
invalidateAvailabilityCache()
return stale.length
}
// Batched mirror: Valkey heartbeat timestamps → Postgres `last_heartbeat_at`.
// Runs every HEARTBEAT_MIRROR_INTERVAL_SECONDS (default 60). One UNNEST UPDATE
// regardless of online count. Idempotent — latest timestamp wins; multiple
// instances running concurrently is fine (no leader election needed).
export const mirrorHeartbeatsToPostgres = async () => {
let onlineIds, heartbeatValues
try {
onlineIds = await valkey.smembers(VK_MITRAS_ONLINE)
if (!onlineIds.length) return 0
const pipe = valkey.pipeline()
for (const id of onlineIds) pipe.get(vkHeartbeatKey(id))
const results = await pipe.exec()
heartbeatValues = results.map((r) => r[1])
} catch (err) {
console.warn('[heartbeat-mirror] valkey unavailable, skipping:', err.message)
return 0
}
const ids = []
const ts = []
for (let i = 0; i < onlineIds.length; i++) {
if (heartbeatValues[i]) {
ids.push(onlineIds[i])
ts.push(heartbeatValues[i])
}
}
if (!ids.length) return 0
await sql`
UPDATE mitra_online_status m
SET last_heartbeat_at = u.ts::timestamptz, updated_at = NOW()
FROM (
SELECT * FROM UNNEST(${sql.array(ids)}::uuid[], ${sql.array(ts)}::text[]) AS t(mitra_id, ts)
) u
WHERE m.mitra_id = u.mitra_id
`
return ids.length
}
/**
* Customer-home availability check, cached in-memory for AVAILABILITY_TTL_MS.
*
@@ -178,12 +347,33 @@ export const autoOfflineStaleMitras = async () => {
* sets/hashes (matching the existing memory item "Session Timer Scaling"); the contract
* of this function — Valkey/cache reads only on the hot path — stays the same.
*/
export const countAvailableMitrasFromCache = async () => {
const now = Date.now()
if (availabilityCache && availabilityCache.expiresAt > now) {
return { available: availabilityCache.available, count: availabilityCache.count }
}
const computeAvailabilityFromValkey = async () => {
const { max_customers_per_mitra } = await getMaxCustomersPerMitra()
const { stale_after_seconds } = await getMitraPingConfig()
const candidates = await valkey.sdiff(VK_MITRAS_ONLINE, VK_MITRAS_DEACTIVATED)
if (!candidates.length) return { available: false, count: 0 }
const pipe = valkey.pipeline()
for (const id of candidates) {
pipe.get(vkCapacityKey(id))
pipe.get(vkHeartbeatKey(id))
}
const results = await pipe.exec()
const cutoff = Date.now() - stale_after_seconds * 1000
let count = 0
for (let i = 0; i < candidates.length; i++) {
const capacity = Number(results[i * 2][1] ?? 0)
const heartbeat = results[i * 2 + 1][1]
if (capacity >= max_customers_per_mitra) continue
if (!heartbeat || Date.parse(heartbeat) < cutoff) continue
count++
}
return { available: count > 0, count }
}
const computeAvailabilityFromPostgres = async () => {
const { max_customers_per_mitra } = await getMaxCustomersPerMitra()
const [{ count }] = await sql`
SELECT COUNT(*)::int AS count
@@ -197,26 +387,42 @@ export const countAvailableMitrasFromCache = async () => {
AND cs.status IN (${SessionStatus.ACTIVE}, ${SessionStatus.PENDING_PAYMENT})
) < ${max_customers_per_mitra}
`
return { available: count > 0, count }
}
const available = count > 0
availabilityCache = {
available,
count,
expiresAt: now + AVAILABILITY_TTL_MS,
export const countAvailableMitrasFromCache = async () => {
try {
const cached = await valkey.get(AVAILABILITY_CACHE_KEY)
if (cached) return JSON.parse(cached)
const snapshot = await computeAvailabilityFromValkey()
await valkey.getValkeyClient().setex(AVAILABILITY_CACHE_KEY, AVAILABILITY_TTL_SECONDS, JSON.stringify(snapshot))
return snapshot
} catch (err) {
console.warn('[countAvailableMitras] valkey unavailable, falling back to Postgres:', err.message)
return computeAvailabilityFromPostgres()
}
return { available, count }
}
/**
* Mitra-online check for use during pairing/extension safeguards.
* Combines the Valkey-mirrored online flag (Postgres mitra_online_status today) with
* the WebSocket-connected check. Never use "in-session" as a proxy for "online".
* Mitra-reachable check: in `mitras:online` SET AND heartbeat is fresh.
* Falls back to a Postgres `is_online` read if Valkey is unreachable; the
* fallback skips the heartbeat-freshness check (sweep takes care of stale rows
* within `stale_after_seconds + sweep_cadence`).
*/
export const isMitraReachable = async (mitraId) => {
const [row] = await sql`
SELECT is_online FROM mitra_online_status WHERE mitra_id = ${mitraId}
`
try {
const inSet = await valkey.sismember(VK_MITRAS_ONLINE, mitraId)
if (!inSet) return false
const heartbeat = await valkey.get(vkHeartbeatKey(mitraId))
if (!heartbeat) return false
const { stale_after_seconds } = await getMitraPingConfig()
return Date.parse(heartbeat) >= Date.now() - stale_after_seconds * 1000
} catch (err) {
console.warn('[isMitraReachable] valkey unavailable, falling back to DB:', err.message)
const [row] = await sql`SELECT is_online FROM mitra_online_status WHERE mitra_id = ${mitraId}`
return Boolean(row?.is_online)
}
}
/**

22
backend/src/services/mitra.service.js
View File

@@ -1,4 +1,8 @@
import { getDb } from '../db/client.js'
import * as valkey from '../plugins/valkey.js'
import { VK_MITRAS_DEACTIVATED } from './mitra-status.service.js'
import { revokeAllSessionsForUser } from './token.service.js'
import { UserType } from '../constants.js'
const sql = getDb()
@@ -36,6 +40,24 @@ export const updateMitraStatus = async (id, is_active) => {
RETURNING id, is_active
`
if (!mitra) throw Object.assign(new Error('Mitra not found'), { code: 'NOT_FOUND', statusCode: 404 })
// Deactivation also revokes all auth_sessions so the next token refresh fails
// (bounds the "ghost online" window to access-token TTL across all routes,
// not just heartbeat). See requirement/valkey-online-mirror-plan.md.
if (!is_active) {
await revokeAllSessionsForUser({ userType: UserType.MITRA, userId: id })
}
try {
if (is_active) {
await valkey.srem(VK_MITRAS_DEACTIVATED, id)
} else {
await valkey.sadd(VK_MITRAS_DEACTIVATED, id)
}
} catch (err) {
console.error(`[valkey-mirror] updateMitraStatus ${id} failed:`, err)
}
return mitra
}

52
backend/src/services/pairing.service.js
View File

@@ -1,11 +1,13 @@
import { getDb } from '../db/client.js'
import { getMaxCustomersPerMitra, getPairingBlastTimeoutSeconds, getReturningChatConfirmationTimeoutSeconds } from './config.service.js'
import * as valkey from '../plugins/valkey.js'
import { VK_MITRAS_ONLINE, VK_MITRAS_DEACTIVATED, vkCapacityKey, vkHeartbeatKey } from './mitra-status.service.js'
import { getMaxCustomersPerMitra, getPairingBlastTimeoutSeconds, getReturningChatConfirmationTimeoutSeconds, getMitraPingConfig } from './config.service.js'
import { sendToUser } from '../plugins/websocket.js'
import { sendPushNotification } from './notification.service.js'
import { startSessionTimer } from './session-timer.service.js'
import { startSessionListener } from './chat-handler.service.js'
import { consumePaymentSession, failPaymentSession, getPaymentSession, recordIntermediateFailure } from './payment.service.js'
import { isMitraReachable, isMitraInActiveSessionWithCustomer, getMitraActiveSessionCount } from './mitra-status.service.js'
import { isMitraReachable, isMitraInActiveSessionWithCustomer, getMitraActiveSessionCount, recomputeCapacityForMitra, recomputeCapacityBySession } from './mitra-status.service.js'
import {
UserType,
SessionStatus,
@@ -76,10 +78,37 @@ const notifyCustomer = async (customerId, data) => {
}
}
export const findAvailableMitras = async () => {
// Valkey-driven: SDIFF(online, deactivated) → for each candidate, pipelined
// GET capacity + heartbeat, then filter by capacity gate + heartbeat freshness.
// Postgres fallback runs if any Valkey op throws (full JOIN as before).
const findAvailableMitrasFromValkey = async () => {
const { max_customers_per_mitra } = await getMaxCustomersPerMitra()
const { stale_after_seconds } = await getMitraPingConfig()
const candidates = await valkey.sdiff(VK_MITRAS_ONLINE, VK_MITRAS_DEACTIVATED)
if (!candidates.length) return []
const pipe = valkey.pipeline()
for (const id of candidates) {
pipe.get(vkCapacityKey(id))
pipe.get(vkHeartbeatKey(id))
}
const results = await pipe.exec()
const cutoff = Date.now() - stale_after_seconds * 1000
const eligible = []
for (let i = 0; i < candidates.length; i++) {
const capacity = Number(results[i * 2][1] ?? 0)
const heartbeat = results[i * 2 + 1][1]
if (capacity >= max_customers_per_mitra) continue
if (!heartbeat || Date.parse(heartbeat) < cutoff) continue
eligible.push({ id: candidates[i], active_session_count: capacity })
}
return eligible
}
const findAvailableMitrasFromPostgres = async () => {
const { max_customers_per_mitra } = await getMaxCustomersPerMitra()
// Project active_session_count alongside the mitra row so the blast loop doesn't
// need a per-mitra COUNT roundtrip later.
const mitras = await sql`
SELECT m.id, m.display_name, sub.active_session_count
FROM mitras m
@@ -96,6 +125,15 @@ export const findAvailableMitras = async () => {
return mitras
}
export const findAvailableMitras = async () => {
try {
return await findAvailableMitrasFromValkey()
} catch (err) {
console.warn('[findAvailableMitras] valkey unavailable, falling back to Postgres:', err.message)
return findAvailableMitrasFromPostgres()
}
}
/**
* Validate that a payment session is owned by the customer, confirmed, and not yet consumed.
* Throws on mismatch. Returns the loaded payment session row.
@@ -414,6 +452,10 @@ export const acceptPairingRequest = async (sessionId, mitraId) => {
})
}
// Mitra now occupies a capacity slot (PENDING_PAYMENT counts per
// findAvailableMitras predicate). Mirror to Valkey.
await recomputeCapacityForMitra(mitraId)
// Mark this mitra's notification as accepted
await sql`
UPDATE chat_request_notifications

5
backend/src/services/session-timer.service.js
View File

@@ -2,6 +2,7 @@ import { getDb } from '../db/client.js'
import { publish } from '../plugins/valkey.js'
import { sendToSessionParticipant } from '../plugins/websocket.js'
import { sendPushNotification } from './notification.service.js'
import { recomputeCapacityForMitra } from './mitra-status.service.js'
import { UserType, SessionStatus, WsMessage, EndedBy } from '../constants.js'
const sql = getDb()
@@ -152,6 +153,7 @@ const onSessionExpired = async (sessionId) => {
RETURNING id, customer_id, mitra_id
`
if (!session) return
await recomputeCapacityForMitra(session.mitra_id)
// Notify customer — sees extend/close dialog; FCM fallback if WebSocket is down
const expiredData = { type: WsMessage.SESSION_EXPIRED, session_id: sessionId }
@@ -207,9 +209,10 @@ const autoCompleteIfStillClosing = async (sessionId) => {
ended_at = COALESCE(ended_at, NOW()),
ended_by = ${EndedBy.SYSTEM_AUTO_CLOSE}
WHERE id = ${sessionId} AND status = ${SessionStatus.CLOSING}
RETURNING id
RETURNING id, mitra_id
`
if (!updated) return
await recomputeCapacityForMitra(updated.mitra_id)
const data = { type: WsMessage.SESSION_COMPLETED, session_id: sessionId }
sendToSessionParticipant(sessionId, UserType.CUSTOMER, data)

7
backend/src/services/session.service.js
View File

@@ -1,5 +1,6 @@
import { getDb } from '../db/client.js'
import { publish } from '../plugins/valkey.js'
import { recomputeCapacityForMitra } from './mitra-status.service.js'
import { UserType, SessionStatus, MessageStatus, WsMessage } from '../constants.js'
const sql = getDb()
@@ -48,6 +49,7 @@ export const endSession = async (sessionId, endedBy, userId) => {
code: 'SESSION_NOT_ACTIVE', statusCode: 409,
})
}
await recomputeCapacityForMitra(session.mitra_id)
// Notify both parties
await publish(`session:${sessionId}:status`, {
@@ -91,6 +93,11 @@ export const rerouteSession = async (sessionId, newMitraId) => {
WHERE id = ${sessionId}
RETURNING id, customer_id, mitra_id, status
`
// Both mitras' capacity flipped — recompute both.
await Promise.all([
recomputeCapacityForMitra(oldMitraId),
recomputeCapacityForMitra(newMitraId),
])
const [newMitra] = await sql`
SELECT display_name FROM mitras WHERE id = ${newMitraId}

4
backend/test/helpers/db.js
View File

@@ -1,4 +1,5 @@
import { getDb } from '../../src/db/client.js'
import { flushTestDb } from './valkey.js'
/**
* Single shared sql client used by tests. Same singleton the services use, since
@@ -37,6 +38,9 @@ export const resetDb = async () => {
const sql = db()
// RESTART IDENTITY is a no-op for UUID PKs but cheap; CASCADE handles any future FK additions.
await sql.unsafe(`TRUNCATE TABLE ${TRUNCATE_TABLES.join(', ')} RESTART IDENTITY CASCADE`)
// Flush Valkey availability state so each test starts hermetic. Fixtures
// (createMitra etc.) re-seed Valkey alongside their Postgres writes.
await flushTestDb()
}
/**

14
backend/test/helpers/fixtures.js
View File

@@ -1,5 +1,6 @@
import { randomUUID } from 'node:crypto'
import { db, resetAppConfig } from './db.js'
import { getTestValkey } from './valkey.js'
/**
* Insert a customer row. Defaults to the schema after the Phase 3.4 auth rewrite
@@ -47,6 +48,19 @@ export const createMitra = async ({
ON CONFLICT (mitra_id) DO UPDATE
SET is_online = true, last_online_at = ${now}, last_heartbeat_at = ${now}, updated_at = ${now}
`
// Mirror to Valkey so findAvailableMitras (Valkey-driven) sees this mitra.
// resetDb already FLUSHDBs Valkey, so seeding here per-mitra keeps tests
// hermetic without depending on production's startup seed.
const v = getTestValkey()
await v.multi()
.sadd('mitras:online', id)
.set(`mitra:heartbeat:${id}`, now.toISOString())
.set(`mitra:capacity:${id}`, 0)
.exec()
}
if (!isActive) {
const v = getTestValkey()
await v.sadd('mitras:deactivated', id)
}
return row
}

494
backend/test/services/mitra-status.valkey-mirror.test.js Normal file
View File

@@ -0,0 +1,494 @@
import { describe, it, expect, beforeAll, beforeEach, afterAll, vi } from 'vitest'
/**
* Integration tests for the Valkey availability mirror
* (requirement/valkey-online-mirror-plan.md).
*
* Real Postgres + real Valkey via test/setup.js — no mocks. We assert on both
* stores' state after each operation to catch missed mirrors or order bugs.
*/
vi.mock('../../src/plugins/websocket.js', () => ({
sendToUser: vi.fn(() => false),
sendToSessionParticipant: vi.fn(() => false),
registerWebSocketPlugin: vi.fn(),
registerWebSocketRoute: vi.fn(),
isUserOnlineWs: vi.fn(() => false),
getSessionConnections: vi.fn(() => ({})),
}))
vi.mock('../../src/services/notification.service.js', () => ({
sendPushNotification: vi.fn(async () => true),
registerDeviceToken: vi.fn(async () => {}),
}))
const valkey = await import('../../src/plugins/valkey.js')
const {
setOnline,
setOffline,
heartbeat,
isMitraReachable,
recomputeCapacityForMitra,
recomputeCapacityBySession,
seedFromPostgres,
autoOfflineStaleMitras,
mirrorHeartbeatsToPostgres,
countAvailableMitrasFromCache,
invalidateAvailabilityCache,
VK_MITRAS_ONLINE,
VK_MITRAS_DEACTIVATED,
vkCapacityKey,
vkHeartbeatKey,
} = await import('../../src/services/mitra-status.service.js')
const { updateMitraStatus } = await import('../../src/services/mitra.service.js')
const { findAvailableMitras, acceptPairingRequest, createPairingRequest } = await import('../../src/services/pairing.service.js')
const { createPaymentSession, confirmPaymentSession } = await import('../../src/services/payment.service.js')
const { db, resetDb, resetAppConfig } = await import('../helpers/db.js')
const { getTestValkey } = await import('../helpers/valkey.js')
const { createCustomer, createMitra } = await import('../helpers/fixtures.js')
const { SessionStatus, UserType } = await import('../../src/constants.js')
const v = () => getTestValkey()
describe('mitra-status valkey mirror', () => {
beforeAll(async () => {
await resetAppConfig()
})
beforeEach(async () => {
await resetDb()
})
// ---------- Seed ----------
describe('seedFromPostgres', () => {
it('populates mitras:online from is_online=true rows', async () => {
const m1 = await createMitra({ callName: 'M1', isOnline: true })
const m2 = await createMitra({ callName: 'M2', isOnline: true })
await createMitra({ callName: 'M3', isOnline: false })
await v().flushdb()
await seedFromPostgres()
const members = await v().smembers(VK_MITRAS_ONLINE)
expect(members.sort()).toEqual([m1.id, m2.id].sort())
})
it('seeds mitras:deactivated from is_active=false', async () => {
const m = await createMitra({ callName: 'Dead', isActive: false })
await createMitra({ callName: 'Alive', isActive: true })
await v().flushdb()
await seedFromPostgres()
const members = await v().smembers(VK_MITRAS_DEACTIVATED)
expect(members).toEqual([m.id])
})
it('seeds heartbeat keys for online mitras with current timestamp', async () => {
const m = await createMitra({ callName: 'Live', isOnline: true })
await v().flushdb()
const before = Date.now()
await seedFromPostgres()
const after = Date.now()
const ts = await v().get(vkHeartbeatKey(m.id))
expect(ts).toBeTruthy()
const seeded = Date.parse(ts)
expect(seeded).toBeGreaterThanOrEqual(before)
expect(seeded).toBeLessThanOrEqual(after)
})
it('seeds capacity counters from chat_sessions', async () => {
const c = await createCustomer({ callName: 'C' })
const m = await createMitra({ callName: 'M', isOnline: true })
const sql = db()
await sql`
INSERT INTO chat_sessions (customer_id, mitra_id, status)
VALUES (${c.id}, ${m.id}, ${SessionStatus.ACTIVE})
`
await v().flushdb()
await seedFromPostgres()
expect(await v().get(vkCapacityKey(m.id))).toBe('1')
})
it('is idempotent — running twice yields the same state', async () => {
const m = await createMitra({ callName: 'Idem', isOnline: true })
await seedFromPostgres()
const first = {
online: (await v().smembers(VK_MITRAS_ONLINE)).sort(),
heartbeat: await v().get(vkHeartbeatKey(m.id)),
}
await seedFromPostgres()
const second = {
online: (await v().smembers(VK_MITRAS_ONLINE)).sort(),
heartbeat: await v().get(vkHeartbeatKey(m.id)),
}
expect(second.online).toEqual(first.online)
// Heartbeat is reseeded with NOW each call — must be >= first
expect(Date.parse(second.heartbeat)).toBeGreaterThanOrEqual(Date.parse(first.heartbeat))
})
})
// ---------- setOnline / setOffline ----------
describe('setOnline / setOffline write-through', () => {
it('setOnline adds to mitras:online + writes heartbeat key', async () => {
const m = await createMitra({ callName: 'Toggle', isOnline: false })
await v().flushdb()
await setOnline(m.id)
expect(await v().sismember(VK_MITRAS_ONLINE, m.id)).toBe(1)
expect(await v().get(vkHeartbeatKey(m.id))).toBeTruthy()
})
it('setOffline removes from mitras:online + deletes heartbeat key', async () => {
const m = await createMitra({ callName: 'Toggle', isOnline: true })
await setOnline(m.id) // ensure heartbeat key exists
await setOffline(m.id)
expect(await v().sismember(VK_MITRAS_ONLINE, m.id)).toBe(0)
expect(await v().get(vkHeartbeatKey(m.id))).toBeNull()
})
it('setOffline is no-op when mitra was already offline', async () => {
const m = await createMitra({ callName: 'OffAlready', isOnline: false })
const sql = db()
const beforeLogs = await sql`SELECT COUNT(*)::int AS c FROM mitra_online_logs WHERE mitra_id=${m.id}`
await setOffline(m.id)
const afterLogs = await sql`SELECT COUNT(*)::int AS c FROM mitra_online_logs WHERE mitra_id=${m.id}`
expect(afterLogs[0].c).toBe(beforeLogs[0].c)
})
})
// ---------- heartbeat ----------
describe('heartbeat (Valkey-only)', () => {
it('writes Valkey timestamp without touching Postgres last_heartbeat_at', async () => {
const m = await createMitra({ callName: 'Pinger', isOnline: true })
const sql = db()
const [before] = await sql`SELECT last_heartbeat_at FROM mitra_online_status WHERE mitra_id=${m.id}`
const pgBefore = before.last_heartbeat_at
// Make sure subsequent NOW() would differ
await new Promise(r => setTimeout(r, 50))
await heartbeat(m.id)
const [after] = await sql`SELECT last_heartbeat_at FROM mitra_online_status WHERE mitra_id=${m.id}`
// Postgres untouched
expect(after.last_heartbeat_at).toEqual(pgBefore)
// Valkey updated
const ts = await v().get(vkHeartbeatKey(m.id))
expect(ts).toBeTruthy()
expect(Date.parse(ts)).toBeGreaterThan(pgBefore.getTime())
})
it('advances the heartbeat timestamp on each call', async () => {
const m = await createMitra({ callName: 'P', isOnline: true })
await heartbeat(m.id)
const t1 = await v().get(vkHeartbeatKey(m.id))
await new Promise(r => setTimeout(r, 20))
await heartbeat(m.id)
const t2 = await v().get(vkHeartbeatKey(m.id))
expect(Date.parse(t2)).toBeGreaterThan(Date.parse(t1))
})
})
// ---------- isMitraReachable ----------
describe('isMitraReachable', () => {
it('returns true for online mitra with fresh heartbeat', async () => {
const m = await createMitra({ callName: 'Reach', isOnline: true })
expect(await isMitraReachable(m.id)).toBe(true)
})
it('returns false when mitra is not in mitras:online', async () => {
const m = await createMitra({ callName: 'NoReach', isOnline: false })
expect(await isMitraReachable(m.id)).toBe(false)
})
it('returns false when heartbeat is stale', async () => {
const m = await createMitra({ callName: 'Stale', isOnline: true })
// Force stale heartbeat (one hour ago)
const ancient = new Date(Date.now() - 3_600_000).toISOString()
await v().set(vkHeartbeatKey(m.id), ancient)
expect(await isMitraReachable(m.id)).toBe(false)
})
})
// ---------- recomputeCapacity ----------
describe('recomputeCapacityForMitra', () => {
it('counts ACTIVE + PENDING_PAYMENT sessions', async () => {
const c = await createCustomer({ callName: 'C' })
const c2 = await createCustomer({ callName: 'C2' })
const m = await createMitra({ callName: 'Cap', isOnline: true })
const sql = db()
await sql`
INSERT INTO chat_sessions (customer_id, mitra_id, status)
VALUES (${c.id}, ${m.id}, ${SessionStatus.ACTIVE}),
(${c2.id}, ${m.id}, ${SessionStatus.PENDING_PAYMENT})
`
await recomputeCapacityForMitra(m.id)
expect(await v().get(vkCapacityKey(m.id))).toBe('2')
})
it('excludes ended/closing/extending sessions', async () => {
const c = await createCustomer({ callName: 'C' })
const m = await createMitra({ callName: 'Cap', isOnline: true })
const sql = db()
await sql`
INSERT INTO chat_sessions (customer_id, mitra_id, status)
VALUES (${c.id}, ${m.id}, ${SessionStatus.COMPLETED})
`
await recomputeCapacityForMitra(m.id)
expect(await v().get(vkCapacityKey(m.id))).toBe('0')
})
it('no-op when mitraId is null/undefined', async () => {
await recomputeCapacityForMitra(null) // should not throw
await recomputeCapacityForMitra(undefined)
})
})
// ---------- findAvailableMitras ----------
describe('findAvailableMitras (Valkey-driven)', () => {
it('returns online + not-deactivated + under-capacity + fresh-heartbeat mitras', async () => {
const ok = await createMitra({ callName: 'OK', isOnline: true })
const deact = await createMitra({ callName: 'Deact', isOnline: true, isActive: false })
const offline = await createMitra({ callName: 'Off', isOnline: false })
const stale = await createMitra({ callName: 'Stale', isOnline: true })
await v().set(vkHeartbeatKey(stale.id), new Date(Date.now() - 3_600_000).toISOString())
const result = await findAvailableMitras()
const ids = result.map(r => r.id).sort()
expect(ids).toEqual([ok.id].sort())
expect(result.find(r => r.id === ok.id).active_session_count).toBe(0)
})
it('excludes a mitra whose capacity is at max', async () => {
const m = await createMitra({ callName: 'AtCap', isOnline: true })
// max_customers_per_mitra default is 3
await v().set(vkCapacityKey(m.id), 3)
const result = await findAvailableMitras()
expect(result.find(r => r.id === m.id)).toBeUndefined()
})
it('returns capacity in the result for the blast loop', async () => {
const m = await createMitra({ callName: 'WithCap', isOnline: true })
await v().set(vkCapacityKey(m.id), 2)
const result = await findAvailableMitras()
expect(result.find(r => r.id === m.id).active_session_count).toBe(2)
})
})
// ---------- countAvailableMitrasFromCache ----------
describe('countAvailableMitrasFromCache (beacon)', () => {
it('caches the snapshot in Valkey with TTL', async () => {
await createMitra({ callName: 'On', isOnline: true })
await v().del('availability:snapshot')
const first = await countAvailableMitrasFromCache()
expect(first.available).toBe(true)
expect(first.count).toBe(1)
const cached = await v().get('availability:snapshot')
expect(cached).toBeTruthy()
expect(JSON.parse(cached)).toEqual(first)
const ttl = await v().ttl('availability:snapshot')
expect(ttl).toBeGreaterThan(0)
expect(ttl).toBeLessThanOrEqual(10)
})
it('returns cached snapshot on subsequent calls without recompute', async () => {
await createMitra({ callName: 'On', isOnline: true })
await countAvailableMitrasFromCache() // primes cache
// Manually corrupt SET to prove subsequent call reads cache, not Valkey state
await v().flushdb()
await v().set('availability:snapshot', JSON.stringify({ available: true, count: 42 }), 'EX', 10)
const result = await countAvailableMitrasFromCache()
expect(result.count).toBe(42)
})
it('invalidateAvailabilityCache deletes the snapshot', async () => {
await v().set('availability:snapshot', JSON.stringify({ available: true, count: 1 }), 'EX', 10)
await invalidateAvailabilityCache()
expect(await v().get('availability:snapshot')).toBeNull()
})
})
// ---------- autoOfflineStaleMitras ----------
describe('autoOfflineStaleMitras', () => {
it('flips Postgres + cleans Valkey for mitras with stale heartbeat', async () => {
const m = await createMitra({ callName: 'WillStale', isOnline: true })
const sql = db()
// Force stale heartbeat
await v().set(vkHeartbeatKey(m.id), new Date(Date.now() - 3_600_000).toISOString())
const count = await autoOfflineStaleMitras()
expect(count).toBe(1)
const [row] = await sql`SELECT is_online FROM mitra_online_status WHERE mitra_id=${m.id}`
expect(row.is_online).toBe(false)
expect(await v().sismember(VK_MITRAS_ONLINE, m.id)).toBe(0)
expect(await v().get(vkHeartbeatKey(m.id))).toBeNull()
const [log] = await sql`
SELECT status FROM mitra_online_logs
WHERE mitra_id=${m.id} ORDER BY timestamp DESC LIMIT 1
`
expect(log.status).toBe('offline')
})
it('no-op when no mitras are stale', async () => {
await createMitra({ callName: 'Fresh', isOnline: true })
const count = await autoOfflineStaleMitras()
expect(count).toBe(0)
})
it('no-op when require_ping=false', async () => {
const sql = db()
await sql`
UPDATE app_config SET value=${sql.json({ value: false })}
WHERE key='require_mitra_ping'
`
const m = await createMitra({ callName: 'WouldBeStale', isOnline: true })
await v().set(vkHeartbeatKey(m.id), new Date(Date.now() - 3_600_000).toISOString())
const count = await autoOfflineStaleMitras()
expect(count).toBe(0)
// Restore for other tests
await sql`
UPDATE app_config SET value=${sql.json({ value: true })}
WHERE key='require_mitra_ping'
`
})
})
// ---------- mirrorHeartbeatsToPostgres ----------
describe('mirrorHeartbeatsToPostgres', () => {
it('writes Valkey heartbeat timestamps to Postgres last_heartbeat_at in one batch', async () => {
const m1 = await createMitra({ callName: 'P1', isOnline: true })
const m2 = await createMitra({ callName: 'P2', isOnline: true })
const sql = db()
const ts = new Date(Date.now() - 2_000).toISOString()
await v().set(vkHeartbeatKey(m1.id), ts)
await v().set(vkHeartbeatKey(m2.id), ts)
const count = await mirrorHeartbeatsToPostgres()
expect(count).toBe(2)
const rows = await sql`
SELECT mitra_id, last_heartbeat_at FROM mitra_online_status
WHERE mitra_id IN (${m1.id}, ${m2.id})
`
for (const row of rows) {
expect(row.last_heartbeat_at.toISOString()).toBe(ts)
}
})
it('no-op when no mitras are online', async () => {
await v().del(VK_MITRAS_ONLINE)
const count = await mirrorHeartbeatsToPostgres()
expect(count).toBe(0)
})
})
// ---------- updateMitraStatus / revokeAllSessions ----------
describe('updateMitraStatus + auth_session revocation', () => {
it('deactivation adds to mitras:deactivated AND revokes all auth_sessions', async () => {
const m = await createMitra({ callName: 'Banned', isActive: true })
const sql = db()
const tokenHash = '$2b$10$abcdefghijklmnopqrstuv'
await sql`
INSERT INTO auth_sessions (user_type, user_id, refresh_token_hash, expires_at)
VALUES (${UserType.MITRA}, ${m.id}, ${tokenHash}, NOW() + INTERVAL '30 days')
`
await updateMitraStatus(m.id, false)
expect(await v().sismember(VK_MITRAS_DEACTIVATED, m.id)).toBe(1)
const [auth] = await sql`SELECT revoked_at FROM auth_sessions WHERE user_id=${m.id}`
expect(auth.revoked_at).not.toBeNull()
})
it('reactivation removes from mitras:deactivated', async () => {
const m = await createMitra({ callName: 'Pardoned', isActive: false })
await v().sadd(VK_MITRAS_DEACTIVATED, m.id)
await updateMitraStatus(m.id, true)
expect(await v().sismember(VK_MITRAS_DEACTIVATED, m.id)).toBe(0)
})
})
// ---------- E2E: blast lifecycle ----------
describe('end-to-end: blast lifecycle drives capacity counter', () => {
it('mitra accept → capacity++; session end is covered separately', async () => {
const c = await createCustomer({ callName: 'BlastC' })
const m = await createMitra({ callName: 'BlastM', isOnline: true })
const pay = await createPaymentSession({
customerId: c.id,
durationMinutes: 15,
amount: 30000,
})
await confirmPaymentSession(pay.id, c.id)
const session = await createPairingRequest(c.id, { paymentRequestId: pay.id })
expect(await v().get(vkCapacityKey(m.id))).toBe('0') // no accept yet
await acceptPairingRequest(session.id, m.id)
expect(await v().get(vkCapacityKey(m.id))).toBe('1')
})
})
// ---------- Reader fallback when Valkey is unavailable ----------
describe('reader fallback', () => {
it('isMitraReachable falls back to Postgres on Valkey error', async () => {
const m = await createMitra({ callName: 'Fallback', isOnline: true })
// Stub sismember to throw
const spy = vi.spyOn(valkey, 'sismember').mockRejectedValue(new Error('valkey down'))
try {
// Postgres has is_online=true → fallback returns true
const result = await isMitraReachable(m.id)
expect(result).toBe(true)
} finally {
spy.mockRestore()
}
})
it('findAvailableMitras falls back to Postgres JOIN when Valkey sdiff throws', async () => {
const m = await createMitra({ callName: 'FallbackBlast', isOnline: true })
const spy = vi.spyOn(valkey, 'sdiff').mockRejectedValue(new Error('valkey down'))
try {
const result = await findAvailableMitras()
expect(result.find(r => r.id === m.id)).toBeDefined()
} finally {
spy.mockRestore()
}
})
})
})

43
backend/test/services/session-timer.service.test.js
View File

@@ -1,4 +1,5 @@
import { describe, it, expect, beforeEach, afterEach, vi } from 'vitest'
import { randomUUID } from 'node:crypto'
// Capture calls to sendToSessionParticipant so we can assert the 3-min warning event.
vi.mock('../../src/plugins/websocket.js', () => ({
@@ -15,10 +16,42 @@ vi.mock('../../src/services/notification.service.js', () => ({
registerDeviceToken: vi.fn(async () => {}),
}))
vi.mock('../../src/plugins/valkey.js', () => ({
// Real DB queries don't settle under fake timers (they're real socket I/O, not
// microtasks). Stub getDb() with a tagged-template-compatible mock so onThreeMinuteWarning's
// `SELECT expires_at FROM chat_sessions WHERE id = ${sessionId}` resolves synchronously.
vi.mock('../../src/db/client.js', () => {
const fakeSql = () => Promise.resolve([{ expires_at: null }])
fakeSql.unsafe = () => Promise.resolve([])
fakeSql.array = (arr) => arr
fakeSql.json = (v) => v
return { getDb: () => fakeSql }
})
vi.mock('../../src/plugins/valkey.js', () => {
const noopPipeline = { sadd: () => noopPipeline, srem: () => noopPipeline, set: () => noopPipeline, get: () => noopPipeline, del: () => noopPipeline, exec: async () => [] }
return {
publish: vi.fn(async () => {}),
subscribe: vi.fn(() => () => {}),
}))
onValkeyReady: vi.fn(),
getValkeyClient: vi.fn(() => ({ setex: vi.fn(async () => 'OK') })),
getValkeyPub: vi.fn(),
getValkeySub: vi.fn(),
sadd: vi.fn(async () => 1),
srem: vi.fn(async () => 1),
sismember: vi.fn(async () => false),
smembers: vi.fn(async () => []),
sdiff: vi.fn(async () => []),
scard: vi.fn(async () => 0),
set: vi.fn(async () => 'OK'),
get: vi.fn(async () => null),
del: vi.fn(async () => 1),
incr: vi.fn(async () => 1),
decr: vi.fn(async () => 0),
exists: vi.fn(async () => 0),
pipeline: vi.fn(() => noopPipeline),
multi: vi.fn(() => noopPipeline),
}
})
const { sendToSessionParticipant } = await import('../../src/plugins/websocket.js')
const { startSessionTimer, clearSessionTimer } = await import('../../src/services/session-timer.service.js')
@@ -35,7 +68,9 @@ describe('session-timer 3-minute warning (Phase 4)', () => {
})
it('emits session_warning kind:three_minutes_left exactly once at the 3-min mark', async () => {
const sessionId = 'sess-3min-test'
// Real UUID — onThreeMinuteWarning runs a Postgres SELECT against chat_sessions.id
// which is uuid-typed; string ids throw a parse error before we hit the row check.
const sessionId = randomUUID()
const expiresAt = new Date(Date.now() + 5 * 60_000) // 5 minutes from now
startSessionTimer(sessionId, expiresAt)
@@ -65,7 +100,7 @@ describe('session-timer 3-minute warning (Phase 4)', () => {
})
it('does NOT re-fire the 3-min warning when the timer is rescheduled (e.g. extension)', async () => {
const sessionId = 'sess-rescheduled'
const sessionId = randomUUID()
const initial = new Date(Date.now() + 5 * 60_000)
startSessionTimer(sessionId, initial)

107
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View File

@@ -0,0 +1,107 @@
# Deployment notes
Operational decisions and dependency configuration for staging/production. Keep this updated as we make infra choices; cross-link from feature plans when a deploy-time setting matters.
## Infrastructure summary
| Component | Service | Tier / Notes |
|---|---|---|
| Backend (public + internal) | GCP Cloud Run | Horizontal scaling; SIGTERM trapped for graceful drain ([server.js](../backend/src/server.js)) |
| Database | GCP Cloud SQL (PostgreSQL) | Source of truth for all durable state |
| Pub/sub + cache | Valkey | Self-hosted on VM today; Memorystore Standard (HA) recommended for prod (see [§ Valkey](#valkey)) |
| Networking | GCP VPC | Internal listener (port 3001) never exposed; CC reaches it via VPN |
| Payment | Xendit | See [phase5-xendit-plan.md](phase5-xendit-plan.md) for keys / webhook URL setup |
| Auth | Self-managed JWT + FCM-only Firebase | See [backend/CLAUDE.md](../backend/CLAUDE.md) |
## Valkey
Valkey is used for two distinct purposes:
1. **Pub/sub** — cross-instance event fan-out (chat messages, session lifecycle, config invalidation). See [backend/src/plugins/valkey.js](../backend/src/plugins/valkey.js).
2. **Availability mirror**`mitras:online`, `mitras:deactivated`, `mitra:capacity:<id>`, `mitra:heartbeat:<id>`, and `availability:snapshot` per [valkey-online-mirror-plan.md](valkey-online-mirror-plan.md). Postgres remains the durable source of truth; Valkey is the hot read path.
### Persistence — required or optional?
**Not required.** All durable state lives in Postgres; Valkey is a cache + ephemeral liveness layer that fully rebuilds via `seedFromPostgres()` on backend reconnect.
What's actually in Valkey, and what happens if it's wiped:
| Key | Derivable from Postgres? | Cost of loss |
|---|---|---|
| `mitras:online` | yes | reseeded on reconnect |
| `mitras:deactivated` | yes | reseeded on reconnect |
| `mitra:capacity:<id>` | yes (`COUNT(*) FROM chat_sessions`) | reseeded on reconnect |
| `mitra:heartbeat:<id>` | **no** — pure transient liveness | seed writes `NOW`; ≤ a few seconds of fuzz on `last_heartbeat_at` forensics |
| `availability:snapshot` | recomputable | next beacon poll repopulates |
Reader code in services/* has explicit Postgres fallbacks for every Valkey op, so the cold-cache window during a restart degrades performance, not correctness.
### Persistence recommendation by environment
| Environment | Setting | Reason |
|---|---|---|
| **Dev / local** | No persistence (`--save "" --appendonly no` or just default) | Restarts wipe state; reseed handles it cleanly; zero disk overhead |
| **Staging** | AOF on (`--appendonly yes`) | Verifies prod-like behavior; tiny disk cost |
| **Production** | AOF on, optionally RDB too (`--appendonly yes --save 60 1000`) | Eliminates cold-cache window after restart; trivial disk footprint (few MB) |
The application code is identical across all three — persistence is a deploy-time knob, not a code-level concern.
### Self-hosted Valkey (current state, dev/staging)
Docker container on the existing VM. Reference config:
```yaml
valkey:
image: valkey/valkey:7-alpine
command: valkey-server --appendonly yes --save 60 1000
volumes:
- valkey-data:/data
ports:
- "6379:6379"
restart: unless-stopped
```
Backend reaches it via `VALKEY_URL=redis://<vm-ip>:6379` in `backend/.env` (or Cloud Run env var).
### Memorystore migration (when going to prod)
The reseed-from-Postgres flow makes migration trivial — Valkey state is never load-bearing:
1. Provision **Memorystore for Valkey, Standard tier** (HA with replica) in the same VPC + region as Cloud Run.
- Smallest available size (~1 GB) is plenty; actual data footprint is well under 1 MB.
- Cost: ~$50/month at minimum sizing in asia-southeast2.
2. Update Cloud Run env: `VALKEY_URL=redis://<memorystore-internal-ip>:6379`.
3. Deploy new revision. Cloud Run rolling deploy → new instances seed Memorystore from Postgres; old instances drain on old Valkey.
4. Shut down old Valkey once traffic has migrated.
**Zero downtime.** No data migration needed (state is derivable). The cold-cache window on new instances is handled by the existing Postgres-fallback reader paths.
### Tier choice rationale
| Tier | When to use | Failover behavior |
|---|---|---|
| Self-hosted Docker | Dev, staging | Manual restart; backend reseeds when Valkey comes back |
| Memorystore Basic | Cost-sensitive single-AZ staging | ~15 min outage per maintenance event; backend handles via Postgres fallback |
| Memorystore Standard (HA) | **Production** | ~30s automatic failover; replica keeps data live |
The system is correct on any tier — HA reduces customer-visible latency spikes during Valkey events from minutes to seconds.
## Cloud Run
(Placeholder — fill in as we make decisions about region, min/max instances, concurrency, secrets manager wiring.)
## Cloud SQL
(Placeholder — pool size, machine type, HA flag, backup retention.)
## Xendit
See [phase5-xendit-plan.md](phase5-xendit-plan.md) for credential setup and webhook URL configuration. Stage 8 (live E2E) is currently blocked on test-mode keys.
## Open ops decisions
- [ ] Confirm Memorystore Standard tier for prod deploy (recommended in [§ Valkey](#valkey)).
- [ ] Pin GCP region for backend + Cloud SQL + Memorystore (all must match for sub-ms internal latency).
- [ ] Secrets manager (GCP Secret Manager vs Cloud Run env vars) for `AUTH_JWT_SECRET`, `XENDIT_SECRET_KEY`, etc.
- [ ] Backup retention policy for Cloud SQL.
- [ ] CI/CD pipeline for Cloud Run deploys.

376
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@@ -0,0 +1,376 @@
# Valkey mirror for mitra availability — plan
**Status:** approved (2026-05-25). Open issue: heartbeat auth preHandler (see [§ Open issues](#open-issues)).
**Created:** 2026-05-25
**Owner:** Ramadhan
## Goal
Move the **read path** for "is this mitra available to blast?" entirely into Valkey at production scale (hundreds of online mitras, thousands of customers polling). Eliminate per-heartbeat Postgres writes. Keep Postgres as the durable source of truth via either real-time mirroring (writes that already exist) or periodic batched mirroring (heartbeats).
## North star
- **Postgres = durable source of truth.** Every fact lives there.
- **Valkey = read path + ephemeral-write target.** Mirrors Postgres state; reads compute availability from primitive signals.
- **Valkey unreachable on a read:** fall back to the existing Postgres JOIN query. Outage degrades performance, never breaks pairing.
- **Valkey unreachable on a write:** log + continue. Reconciliation sweep heals drift.
- **Valkey restart / cold start:** reseed from Postgres before serving traffic.
## Schema
Four Valkey structures. None has a TTL (heartbeat freshness is computed by sweep, not by Redis expiry):
| Key | Type | Value / members | Updated by |
|---|---|---|---|
| `mitras:online` | SET | mitra UUIDs | `setOnline` SADD; `setOffline` SREM; sweep SREM; bulk-SREM on deactivate |
| `mitras:deactivated` | SET | mitra UUIDs | `updateMitraStatus(is_active=false)` SADD; `updateMitraStatus(is_active=true)` SREM |
| `mitra:capacity:<id>` | STRING (integer) | count of active+pending_payment sessions assigned to this mitra | INCR on session accept; DECR on session end/expire/cancel; DECR/INCR pair on reroute |
| `mitra:heartbeat:<id>` | STRING | ISO 8601 timestamp of last heartbeat | heartbeat handler `SET`; `setOnline` `SET` (seed); `setOffline` `DEL` |
Postgres mirror columns (durable):
- `mitra_online_status.is_online` — written by `setOnline` / `setOffline` / sweep. Already in schema.
- `mitra_online_status.last_heartbeat_at` — written by the **batched heartbeat mirror** every 60s (NOT per-ping). Already in schema.
- `mitras.is_active` — written by `updateMitraStatus`. Already in schema.
- `chat_sessions.status` + `mitra_id` — already source-of-truth for session counts.
## Read path (computing "available for blast")
All reads compute on the fly from Valkey primitives. No memoized `mitras:available` set.
```js
const findAvailableMitras = async () => {
// 1. online minus deactivated
const candidates = await valkey.sdiff('mitras:online', 'mitras:deactivated')
if (!candidates.length) return []
// 2. fetch capacity + heartbeat for each candidate (pipelined: 1 roundtrip)
const pipe = valkey.pipeline()
for (const id of candidates) {
pipe.get(`mitra:capacity:${id}`)
pipe.get(`mitra:heartbeat:${id}`)
}
const results = await pipe.exec()
// 3. filter by capacity + heartbeat freshness
const { max_customers_per_mitra } = await getMaxCustomersPerMitra()
const { stale_after_seconds } = await getMitraPingConfig()
const cutoff = Date.now() - stale_after_seconds * 1000
const eligible = []
for (let i = 0; i < candidates.length; i++) {
const count = Number(results[i * 2][1] ?? 0)
const heartbeatAt = results[i * 2 + 1][1]
if (count >= max_customers_per_mitra) continue
if (!heartbeatAt || Date.parse(heartbeatAt) < cutoff) continue
eligible.push({ id: candidates[i], active_session_count: count })
}
return eligible
}
```
**Cost at prod scale (300 online):** 1 `SDIFF` + 600 `GET` (pipelined) = ~1ms. Negligible.
### Read sites — what changes
| Caller | Today | After |
|---|---|---|
| `isMitraReachable(mitraId)` ([mitra-status.service.js:215](../backend/src/services/mitra-status.service.js#L215)) | `SELECT is_online ...` | `SISMEMBER mitras:online` + check `mitra:heartbeat:<id>` freshness |
| `findAvailableMitras` ([pairing.service.js:79](../backend/src/services/pairing.service.js#L79)) | full JOIN with chat_sessions | Valkey-driven (above) |
| `countAvailableMitrasFromCache` ([mitra-status.service.js:181](../backend/src/services/mitra-status.service.js#L181)) | full JOIN, cached in-process 10s | Valkey-driven, cached in **Valkey** 10s (shared cluster-wide) |
| Dashboard online count ([dashboard.service.js:16](../backend/src/services/dashboard.service.js#L16)) | `COUNT(*) WHERE is_online=true` | `SCARD mitras:online` |
| `getStatus(mitraId)` (mitra's own status poll) | full SELECT | Hybrid: `SISMEMBER` for `is_online`, Postgres for timestamps |
| `getOnlineMitras` (CC dashboard) | full JOIN with display_name + active_session_count | **unchanged** — low volume, joins make sense in SQL |
### Reader fallback
Every Valkey read is wrapped:
```js
try {
return await valkey.sismember('mitras:online', mitraId)
} catch (err) {
log.warn({ err }, '[mitras:online] valkey unreachable, falling back to DB')
const [row] = await sql`SELECT is_online FROM mitra_online_status WHERE mitra_id = ${mitraId}`
return Boolean(row?.is_online)
}
```
For `findAvailableMitras`, the fallback is the existing Postgres JOIN query.
## Write paths
Each Postgres write is followed by a Valkey write. Postgres always commits first. Valkey failures log + continue.
### Online / offline (mitra app toggle)
| Action | Postgres | Valkey |
|---|---|---|
| `setOnline(mitraId)` | `UPDATE mitra_online_status SET is_online=true, last_online_at=NOW(), last_heartbeat_at=NOW()` | `SADD mitras:online <id>` + `SET mitra:heartbeat:<id> <now-iso>` |
| `setOffline(mitraId)` | `UPDATE mitra_online_status SET is_online=false, last_offline_at=NOW()` | `SREM mitras:online <id>` + `DEL mitra:heartbeat:<id>` |
The `SET heartbeat` on `setOnline` is critical: without it, the very next sweep would mark the freshly-online mitra stale (their first real heartbeat is up to `heartbeat_cadence_seconds` away).
### Admin activate / deactivate (CC)
[`updateMitraStatus`](../backend/src/services/mitra.service.js) ([mitra.service.js:32](../backend/src/services/mitra.service.js#L32)):
| Action | Postgres | Valkey |
|---|---|---|
| activate (`is_active=true`) | `UPDATE mitras SET is_active=true` | `SREM mitras:deactivated <id>` |
| deactivate (`is_active=false`) | `UPDATE mitras SET is_active=false` | `SADD mitras:deactivated <id>` |
### Mitra heartbeat (hot path)
Heartbeat handler ([mitra-status.service.js:79](../backend/src/services/mitra-status.service.js#L79)) is rewritten to operate entirely against Valkey:
1. `authenticate` plugin verifies JWT signature + expiry + `userType === 'mitra'` (no DB).
2. `SISMEMBER mitras:deactivated <userId>` → if true, return `403`.
3. `SET mitra:heartbeat:<userId> <now-iso>`.
Steps 2 + 3 pipelined into one Valkey roundtrip.
| | Today | After |
|---|---|---|
| Auth check | `getMitraById` SELECT + `is_active` check (1 DB read) | `SISMEMBER mitras:deactivated` (Valkey only) |
| Body | `UPDATE mitra_online_status SET last_heartbeat_at=NOW() WHERE id=? AND is_online=true` (1 DB write) | `SET mitra:heartbeat:<id>` (Valkey only) |
| Postgres ops per ping | 2 | **0** |
| Valkey ops per ping | 0 | 2 (one pipelined roundtrip) |
| At prod scale (300 online × 2 pings/min) | 1,200 DB ops/min | 1,200 Valkey ops/min, **0 DB ops/min** |
`mitras:deactivated` is already maintained on every CC `updateMitraStatus` call (see [§ Admin activate / deactivate](#admin-activate--deactivate-cc)) so deactivation propagates to the heartbeat path within one Valkey write window (~ms).
### Heartbeat → Postgres batched mirror
A background job runs every `HEARTBEAT_MIRROR_INTERVAL_SECONDS` (env, default 60). One SQL statement, touches all online mitras at once:
```js
const mirrorHeartbeatsToPostgres = async () => {
const onlineIds = await valkey.smembers('mitras:online')
if (!onlineIds.length) return
const pipe = valkey.pipeline()
for (const id of onlineIds) pipe.get(`mitra:heartbeat:${id}`)
const results = await pipe.exec()
const pairs = []
for (let i = 0; i < onlineIds.length; i++) {
const ts = results[i][1]
if (ts) pairs.push({ mitra_id: onlineIds[i], ts })
}
if (!pairs.length) return
await sql`
UPDATE mitra_online_status m
SET last_heartbeat_at = u.ts::timestamptz, updated_at = NOW()
FROM (SELECT * FROM UNNEST(
${sql.array(pairs.map(p => p.mitra_id))}::uuid[],
${sql.array(pairs.map(p => p.ts))}::text[]
) AS t(mitra_id, ts)) u
WHERE m.mitra_id = u.mitra_id
`
}
```
**Cost at prod scale (300 online):** 1 batched UPDATE per minute per instance. At 3 instances = 3 statements/min cluster-wide (redundant but idempotent — latest timestamp wins). ~2060× reduction in Postgres write load vs today.
**No leader election initially.** 3 redundant idempotent UPDATEs/min is still 200× cheaper than today. If WAL pressure becomes visible, add a Valkey-NX lease leader-elect (~15 LOC); deferred.
### Session capacity counter
Touch all four services that mutate session state:
| Trigger | File | Postgres write (existing) | Valkey write |
|---|---|---|---|
| Mitra accepts a chat (status → `active`, mitra_id set) | `pairing.service.js` accept handler | `UPDATE chat_sessions SET status='active', mitra_id=?` | `INCR mitra:capacity:<mitra_id>` |
| Session ends (status → `ended` / `expired` / `cancelled`) | `closure.service.js`, expiry sweepers | `UPDATE chat_sessions SET status=...` | `DECR mitra:capacity:<mitra_id>` |
| Session reroute (mitra A → mitra B) | `session.service.js` | `UPDATE chat_sessions SET mitra_id=B` | `DECR mitra:capacity:A` + `INCR mitra:capacity:B` (pipelined) |
**What counts as occupying capacity:** sessions in `ACTIVE` or `PENDING_PAYMENT` status with a non-null `mitra_id`. This matches the existing `findAvailableMitras` predicate. Extension flow (active → pending_payment → active) does NOT change capacity — mitra stays occupied throughout.
**Negative-counter guard:** wrap `DECR` in a `Math.max(0, ...)` check via Lua or via a `GET` + `SET` if zero — to prevent drift if a DECR fires without a prior INCR (e.g. legacy session without Valkey mirror). The reconciliation sweep recomputes from Postgres anyway.
## Auto-offline sweep — Valkey-driven
Replaces the current Postgres seq-scan with a Valkey computation. Runs every `MITRA_AUTO_OFFLINE_SWEEP_SECONDS` (env, default 30):
```js
const autoOfflineStaleMitras = async () => {
const { stale_after_seconds, require_ping } = await getMitraPingConfig()
if (!require_ping) return 0
const onlineIds = await valkey.smembers('mitras:online')
if (!onlineIds.length) return 0
const pipe = valkey.pipeline()
for (const id of onlineIds) pipe.get(`mitra:heartbeat:${id}`)
const results = await pipe.exec()
const cutoff = Date.now() - stale_after_seconds * 1000
const stale = []
for (let i = 0; i < onlineIds.length; i++) {
const ts = results[i][1]
if (!ts || Date.parse(ts) < cutoff) stale.push(onlineIds[i])
}
if (!stale.length) return 0
// Postgres: bulk flip is_online=false
await sql`
UPDATE mitra_online_status
SET is_online = false, last_offline_at = NOW(), updated_at = NOW()
WHERE mitra_id = ANY(${sql.array(stale)}::uuid[]) AND is_online = true
`
// Log rows
for (const id of stale) {
await sql`INSERT INTO mitra_online_logs (mitra_id, status) VALUES (${id}, 'offline')`
}
// Valkey: bulk SREM + DEL heartbeat keys
const cleanup = valkey.pipeline()
cleanup.srem('mitras:online', ...stale)
for (const id of stale) cleanup.del(`mitra:heartbeat:${id}`)
await cleanup.exec()
invalidateAvailabilityCache()
return stale.length
}
```
**Stale threshold:** `stale_after_seconds` is read from `getMitraPingConfig()` ([config.service.js](../backend/src/services/config.service.js)) — the existing CC-tunable knob. Not a new env.
**Sweep cadence:** `MITRA_AUTO_OFFLINE_SWEEP_SECONDS` env, default 30 (matches current hardcoded setInterval).
**Failure semantics:** if any Valkey op throws, the entire sweep aborts for this tick. The next tick retries. We never want to mass-offline mitras due to a transient Valkey hiccup.
## Shared beacon snapshot cache
Replace the in-process `availabilityCache` ([mitra-status.service.js:14](../backend/src/services/mitra-status.service.js#L14)) with a Valkey GET/SETEX key. Even though reads are now sub-ms Valkey ops, this caps total Valkey query load at high beacon-poll rates (5,000 customers × 12/min = 60,000 polls/min → cache → 6 computations/min cluster-wide).
```
KEY: availability:snapshot
TYPE: string (JSON: {"available": bool, "count": number})
TTL: 10 seconds
```
`config:invalidate` pub/sub subscriber extended to `DEL availability:snapshot` on `max_customers_per_mitra` bust.
## Startup / reconnect / reseed
Three triggers reseed Valkey state from Postgres. All idempotent.
### Backend startup
In [`server.js`](../backend/src/server.js), after Valkey emits `'ready'` and before the public listener binds:
```js
const onlineRows = await sql`SELECT mitra_id FROM mitra_online_status WHERE is_online = true`
const deactRows = await sql`SELECT id FROM mitras WHERE is_active = false`
const sessionCountRows = await sql`
SELECT mitra_id, COUNT(*)::int AS c FROM chat_sessions
WHERE mitra_id IS NOT NULL AND status IN ('active', 'pending_payment')
GROUP BY mitra_id
`
const pipe = valkey.multi()
pipe.del('mitras:online', 'mitras:deactivated')
if (onlineRows.length) {
pipe.sadd('mitras:online', ...onlineRows.map(r => r.mitra_id))
// Seed heartbeat timestamps to NOW so the first sweep doesn't mass-offline
// currently-online mitras. They'll refresh on their next ping anyway.
const now = new Date().toISOString()
for (const r of onlineRows) pipe.set(`mitra:heartbeat:${r.mitra_id}`, now)
}
if (deactRows.length) pipe.sadd('mitras:deactivated', ...deactRows.map(r => r.id))
for (const r of sessionCountRows) pipe.set(`mitra:capacity:${r.mitra_id}`, r.c)
await pipe.exec()
```
### ioredis reconnect
Listen to the ioredis `'ready'` event (fires on initial connect AND each reconnect). Re-run the seed.
### Periodic reconciliation sweeper
`VALKEY_ONLINE_MIRROR_SWEEP_SECONDS` env, default 300. Runs the seed (idempotent — `DEL` + `SADD` + `SET` lands the same state). Belt-and-braces against drift from failed best-effort writes, out-of-band Postgres mutations, Valkey eviction.
## Two sweeps, two cadences (summary)
| Sweep | Purpose | Cadence env | Default | Reads from | Writes to |
|---|---|---|---|---|---|
| Auto-offline | Detect stale-heartbeat mitras → flip offline | `MITRA_AUTO_OFFLINE_SWEEP_SECONDS` | 30 | Valkey | Postgres + Valkey |
| Heartbeat mirror | Persist Valkey heartbeats to Postgres for forensics/backup | `HEARTBEAT_MIRROR_INTERVAL_SECONDS` | 60 | Valkey | Postgres |
| Reconciliation | Heal Valkey/Postgres drift | `VALKEY_ONLINE_MIRROR_SWEEP_SECONDS` | 300 | Postgres | Valkey |
All three run on every backend instance independently. All idempotent. No leader election required.
## Multi-instance safety
Cloud Run runs N instances. Each instance:
- Writes both stores on its own mutations. Atomic Valkey ops (`SADD` / `SREM` / `INCR` / `DECR` / `SET`) — no cross-instance coordination needed.
- Runs all three sweeps independently. Redundant but idempotent.
- Recompute-on-read for blast eligibility — no stale aggregate to invalidate.
The `mitra:capacity:<id>` counter is the most race-sensitive: `INCR` / `DECR` are atomic but a session-state change must consistently fire exactly one increment and one decrement over its lifetime. The reconciliation sweep recomputes from `chat_sessions` and resets the counter, healing any drift.
## Failure mode summary
| | Behavior |
|---|---|
| Valkey unreachable on read | Fall back to Postgres JOIN query |
| Valkey unreachable on write | Log + continue. Reconciliation sweep heals later. |
| Postgres unreachable on heartbeat mirror | Skip this cycle. Next cycle writes the latest. |
| Auto-offline sweep can't reach Valkey | Skip this tick. Mitras stay "online" until Valkey comes back + heartbeat ages out. |
| Valkey crash (catastrophic) | Backend reconnects → reseed from Postgres. Worst case: ≤60s of `last_heartbeat_at` forensics lost. |
| Backend crash | Other instances keep running. New instance reseed on startup. |
## Files touched
| File | Change |
|---|---|
| `backend/src/plugins/valkey.js` | Add wrappers: `sadd`, `srem`, `sismember`, `smembers`, `sdiff`, `scard`, `set`, `get`, `del`, `incr`, `decr`, `pipeline`/`multi` + `'ready'` reconnect hook |
| `backend/src/services/config.service.js` | Add `getMitraAutoOfflineSweepSeconds`, `getHeartbeatMirrorIntervalSeconds`, `getValkeyOnlineMirrorSweepSeconds` getters |
| `backend/src/services/mitra-status.service.js` | Major rewrite (see [§ Read path](#read-path-computing-available-for-blast) and [§ Write paths](#write-paths)). Add `incrementCapacity`, `decrementCapacity`, `mirrorHeartbeatsToPostgres`, `seedFromPostgres` |
| `backend/src/services/mitra.service.js` | Wrap `updateMitraStatus` with `SADD`/`SREM mitras:deactivated` |
| `backend/src/services/pairing.service.js` | Rewrite `findAvailableMitras` as Valkey-driven (Postgres fallback). `INCR mitra:capacity` on session accept. |
| `backend/src/services/closure.service.js` | `DECR mitra:capacity` on session end/expire/cancel |
| `backend/src/services/session.service.js` | `DECR` + `INCR` pair on reroute |
| `backend/src/services/dashboard.service.js` | `SCARD mitras:online` for online count |
| `backend/src/routes/public/mitra.status.routes.js` | Replace `resolveMitra` on `POST /heartbeat` with a Valkey `SISMEMBER mitras:deactivated` check (keep `resolveMitra` on `/online`, `/offline`, `GET /`) |
| `backend/src/server.js` | Call `seedFromPostgres` on startup (before listener binds); replace hardcoded 30_000 setInterval with env-driven cadence; register heartbeat mirror + reconciliation sweep intervals |
| `backend/.env.example` | Document `MITRA_AUTO_OFFLINE_SWEEP_SECONDS`, `HEARTBEAT_MIRROR_INTERVAL_SECONDS`, `VALKEY_ONLINE_MIRROR_SWEEP_SECONDS` |
| `backend/test/services/mitra-status.service.test.js` | Add tests (see [§ Test plan](#test-plan)) |
| `backend/test/services/pairing.service.test.js` | Update for Valkey-driven `findAvailableMitras` |
| `backend/test/helpers/valkey.js` (new if absent) | Test helper for clean-slate Valkey state per test |
**Estimated touch:** ~400 LOC + ~200 LOC tests. ~2 days focused work.
## Test plan
### Unit
1. Mock Valkey; verify each writer calls Postgres → Valkey in correct order, with the seed-heartbeat-on-setOnline and DEL-on-setOffline.
2. Verify reader fallback path runs when Valkey ops throw.
3. Verify auto-offline sweep aborts entirely when Valkey ops throw (does NOT mass-offline via Postgres-only path).
4. Verify capacity counter never goes negative (Math.max guard).
### Integration (real Valkey + Postgres)
1. **Seed correctness:** insert N online rows + M deactivated + session counts in DB; run startup seed; verify all four Valkey structures match.
2. **Heartbeat refresh:** `setHeartbeat()` → verify Valkey value updates; check that the periodic mirror writes Postgres `last_heartbeat_at` within one mirror cycle.
3. **Auto-offline:** insert online mitra, manually expire heartbeat by setting timestamp in past, run sweep, verify Postgres `is_online=false` + Valkey `SREM` + `DEL` heartbeat key.
4. **Capacity lifecycle:** simulate session accept → end across multiple mitras; verify counter increments/decrements; verify reroute moves count from A to B atomically.
5. **Restart resilience:** seed state, simulate Valkey restart (FLUSHALL), trigger reconnect handler, verify all four structures reseed correctly.
6. **Reconciliation:** corrupt Valkey (random SADD of non-existent mitra, wrong capacity counter, missing entries); run reconciliation sweep; verify convergence to Postgres state.
7. **Fallback:** disable Valkey mid-test; verify `findAvailableMitras` falls back to Postgres JOIN query and returns sensible results.
### Regression
- All 90/92 existing backend tests should still pass.
- Maestro flows for pairing (ts-customer-*) should pass unchanged.
## Decisions (locked 2026-05-25)
1. **`revokeAllAuthSessions(mitraId)` added to `updateMitraStatus`** in the same PR. Bounds the deactivation gap to access-token TTL across all mitra routes (not just heartbeat).
2. **Prod Valkey: Memorystore for Valkey, Standard tier** (HA with replica, smallest available capacity ~1GB). Built-in replication keeps heartbeat timestamps live across failover. Staging/dev can run Basic tier — the reseed-from-Postgres flow handles cold-cache restarts correctly either way.
3. **Keep `last_heartbeat_at` column.** Written by the 60s batched mirror; remains available for operator forensics ("when was X last seen?"). Drop only if a future audit confirms no consumer reads it.
## Future phases (deferred)
- **Heartbeat → Valkey TTL with keyspace notifications.** Replace timestamp-comparison sweep with `notify-keyspace-events Ex` → instant detection of expired heartbeats. Requires Memorystore config change + a subscriber. Defer until 30s detection lag is the visible bottleneck.
- **Leader-elected mirror/sweep.** Use a Valkey-NX lease so only one instance runs each background job. ~15 LOC each. Defer until the redundant work shows up in metrics.

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# Valkey Availability Mirror — Testing Checklist
End-to-end verification for the Valkey-mirror refactor described in [valkey-online-mirror-plan.md](valkey-online-mirror-plan.md).
Cluster labels: **[BE]** backend / curl / SQL / Valkey-cli, **[CC]** control_center, **[M]** mitra_app, **[C]** client_app.
> **Run order:** Section A first (seed + startup) — every subsequent section assumes a fresh seed. Sections BJ are otherwise independent.
---
## Setup
- [ ] Backend running on `192.168.88.247:3000` (public) + `:3001` (internal) — `curl http://192.168.88.247:3000/api/shared/auth-providers` returns 200
- [ ] Valkey reachable from backend (`VALKEY_URL` matches running instance; `[valkey] subscribed to config:invalidate` appears in backend boot log)
- [ ] Postgres reachable; backend boot log shows `[valkey-mirror] seed: X online, Y deactivated, Z with active sessions`
- [ ] At least 3 mitra accounts exist in DB (we need to flip them online/offline/deactivated across tests)
- [ ] One customer account ready for the blast scenarios
- [ ] Helpful aliases for verification (run from `backend/`):
```bash
alias vk='node --env-file=.env -e'
# Then in tests: vk "(async()=>{const v=(await import('./src/plugins/valkey.js')).getValkeyClient();
# console.log(await v.smembers('mitras:online'));process.exit(0)})()"
```
---
## Section A — Seed + Startup
Verifies `seedFromPostgres()` populates Valkey correctly from Postgres truth.
- [ ] **[BE]** Restart backend; log shows one `[valkey-mirror] seed: N online, M deactivated, K with active sessions` line on startup
- [ ] **[BE]** Counts in the log match Postgres truth:
```sql
SELECT
(SELECT COUNT(*) FROM mitra_online_status WHERE is_online=true) AS online,
(SELECT COUNT(*) FROM mitras WHERE is_active=false) AS deactivated,
(SELECT COUNT(DISTINCT mitra_id) FROM chat_sessions
WHERE mitra_id IS NOT NULL AND status IN ('active','pending_payment')) AS with_sessions;
```
- [ ] **[BE]** Valkey contents match — `SMEMBERS mitras:online` returns the same IDs as `SELECT mitra_id FROM mitra_online_status WHERE is_online=true`
- [ ] **[BE]** Valkey `mitra:heartbeat:<id>` exists for every currently-online mitra, value is a recent ISO timestamp (within seed time)
- [ ] **[BE]** Valkey `mitra:capacity:<id>` matches `SELECT COUNT(*) FROM chat_sessions WHERE mitra_id=<id> AND status IN ('active','pending_payment')` for every online mitra
- [ ] **[BE]** `SMEMBERS mitras:deactivated` matches `SELECT id FROM mitras WHERE is_active=false`
### Reconnect re-seed
- [ ] **[BE]** With backend running, `FLUSHDB` on Valkey, wait ~5s for ioredis reconnect, verify a second `[valkey-mirror] seed:` log entry appears
- [ ] **[BE]** All four Valkey structures are rebuilt and match Postgres again
---
## Section B — Online / Offline toggle (write-through)
Verifies `setOnline` / `setOffline` writes both stores in the right order.
- [ ] **[M]** Mitra taps "online" → backend updates Postgres `mitra_online_status.is_online=true`
- [ ] **[BE]** `SISMEMBER mitras:online <mitra-id>` returns `1` within 1s of the toggle
- [ ] **[BE]** `GET mitra:heartbeat:<mitra-id>` returns a fresh ISO timestamp (within seconds of the toggle)
- [ ] **[M]** Mitra taps "offline"
- [ ] **[BE]** Postgres `is_online=false`, Valkey `SISMEMBER mitras:online <id>` returns `0`, `GET mitra:heartbeat:<id>` returns `nil`
- [ ] **[BE]** `mitra_online_logs` has paired `online` / `offline` audit rows
### Valkey-failure best-effort write
- [ ] **[BE]** Stop Valkey, then toggle a mitra online → request succeeds (200), backend log shows `[valkey-mirror] setOnline <id> failed:` but Postgres is updated correctly
- [ ] **[BE]** Restart Valkey → reconciliation sweep (≤ 300s default) eventually rebuilds the SET to include this mitra
---
## Section C — Heartbeat path
Verifies the rewrite: per-ping = 1 Valkey write, 0 DB writes.
- [ ] **[M]** Mitra online for at least one heartbeat cycle (~30s)
- [ ] **[BE]** Watch Postgres query log during heartbeat — **no `UPDATE mitra_online_status SET last_heartbeat_at` rows fire on every ping** (only the batched mirror, default every 60s)
- [ ] **[BE]** `GET mitra:heartbeat:<id>` value advances on each ping (re-check ~30s later, timestamp moves forward)
- [ ] **[BE]** After 60s+ wait, `SELECT last_heartbeat_at FROM mitra_online_status WHERE mitra_id=<id>` advances (heartbeat mirror sweep ran)
### Deactivation guard via Valkey
- [ ] **[CC]** Admin deactivates the mitra (Phase 5 path: `is_active=false`)
- [ ] **[BE]** `SISMEMBER mitras:deactivated <id>` immediately returns `1`
- [ ] **[M]** Mitra app's next heartbeat → backend returns `403 ACCOUNT_INACTIVE`
- [ ] **[BE]** No Postgres SELECT on `mitras` table for that heartbeat (verify with query log) — guard is pure Valkey
### Fallback when Valkey is down
- [ ] **[BE]** Stop Valkey
- [ ] **[M]** Mitra app heartbeats → backend logs `[heartbeat] valkey check failed, falling back to DB`, request still succeeds for active mitra, returns `403` for deactivated mitra (full DB-backed resolveMitra path)
- [ ] **[BE]** Restart Valkey → next heartbeat uses Valkey path again (no fallback log line)
---
## Section D — Capacity counter
Verifies INCR/DECR across session lifecycle via `recomputeCapacityForMitra`.
- [ ] **[BE]** Reset: pick a mitra with `mitra:capacity:<id> = 0`
- [ ] **[C]** Customer pays → mitra accepts the blast → chat starts
- [ ] **[BE]** `GET mitra:capacity:<id>` returns `1` within 1s of mitra accepting
- [ ] **[C]** Second customer pays → same mitra accepts (assuming `max_customers_per_mitra >= 2`)
- [ ] **[BE]** `GET mitra:capacity:<id>` returns `2`
- [ ] **[C]** First session ends naturally (timer expires + goodbye flow completes)
- [ ] **[BE]** `GET mitra:capacity:<id>` returns `1` within 1s
- [ ] **[C]** Second session ends
- [ ] **[BE]** `GET mitra:capacity:<id>` returns `0`
### Reroute
- [ ] **[CC]** Reroute an active session from mitra A → mitra B
- [ ] **[BE]** `mitra:capacity:A` decrements, `mitra:capacity:B` increments — both atomic with the chat_sessions UPDATE
### Capacity gates blast
- [ ] **[BE]** Set `mitra:capacity:<id>` to `max_customers_per_mitra` directly (`SET mitra:capacity:<id> 3`)
- [ ] **[C]** Customer pays → blast → **this mitra is excluded** (verify with `chat_request_notifications` — no row for this mitra)
---
## Section E — Deactivation flow (full propagation)
Verifies `updateMitraStatus` + `revokeAllSessionsForUser` close the deactivation gap.
- [ ] **[BE]** Mitra has an active access token (capture from `/api/mitra/auth/otp/verify` or use existing logged-in session)
- [ ] **[BE]** Confirm mitra can call protected routes (`curl -H "Authorization: Bearer <token>" /api/mitra/...`)
- [ ] **[CC]** Admin deactivates the mitra
- [ ] **[BE]** Postgres: `mitras.is_active=false`, `auth_sessions.revoked_at IS NOT NULL` for this mitra
- [ ] **[BE]** Valkey: `SISMEMBER mitras:deactivated <id>` = 1
- [ ] **[BE]** Mitra's current access token still works on routes that don't re-check active state (stateless JWT) — bounded by access-token TTL
- [ ] **[BE]** Mitra's heartbeat returns `403 ACCOUNT_INACTIVE` immediately (Valkey check on hot path)
- [ ] **[BE]** Mitra's next refresh token attempt fails (because `auth_sessions.revoked_at` was set) → app effectively logs them out
### Re-activation
- [ ] **[CC]** Re-activate the mitra
- [ ] **[BE]** Postgres `is_active=true`, Valkey `SISMEMBER mitras:deactivated <id>` = 0
- [ ] **[M]** Mitra re-logs in, heartbeats again successfully
---
## Section F — Read paths (Valkey-first)
Verifies all reads use Valkey with Postgres fallback.
### `isMitraReachable`
- [ ] **[BE]** Online mitra with fresh heartbeat → `isMitraReachable` returns `true` (call via `node -e` or any route that uses it, e.g. extension flow)
- [ ] **[BE]** Manually set `mitra:heartbeat:<id>` to a timestamp older than `stale_after_seconds` → `isMitraReachable` returns `false` (even though `is_online=true` in Postgres)
- [ ] **[BE]** Stop Valkey → `isMitraReachable` logs `[isMitraReachable] valkey unavailable, falling back to DB` and returns based on Postgres `is_online`
### `findAvailableMitras` (blast)
- [ ] **[BE]** Run `findAvailableMitras` (e.g. trigger a customer blast) — log shows Valkey path used (no warning about fallback)
- [ ] **[BE]** Result IDs match `SDIFF mitras:online mitras:deactivated` filtered by capacity + heartbeat freshness
- [ ] **[BE]** Stop Valkey → next blast logs `[findAvailableMitras] valkey unavailable, falling back to Postgres` and still returns correct results
### `countAvailableMitrasFromCache` (customer beacon)
- [ ] **[BE]** `curl /public/bestie-availability` returns `{available: bool, count: N}` matching reality
- [ ] **[BE]** `GET availability:snapshot` in Valkey shows cached JSON within 10s of last poll
- [ ] **[BE]** Multiple rapid polls (5+ per second from 3 different IPs) → only one Valkey-driven recompute per 10s; Postgres query log shows **zero** mitra-availability JOINs in steady state (only the once-per-10s cache miss)
- [ ] **[CC]** Operator changes `max_customers_per_mitra` → `availability:snapshot` is `DEL`d (cache bust), next poll recomputes
### Dashboard online count
- [ ] **[CC]** Dashboard "Online Mitras" stat matches `SCARD mitras:online` in Valkey
- [ ] **[BE]** Verify the dashboard query no longer hits `SELECT COUNT(*) FROM mitra_online_status WHERE is_online=true` (check query log)
---
## Section G — Auto-offline sweep (Valkey-driven)
Verifies stale heartbeats → flipped offline via Valkey diff.
- [ ] **[BE]** Set `MITRA_AUTO_OFFLINE_SWEEP_SECONDS=10` in env for faster test cycle, restart backend
- [ ] **[CC]** Set `stale_after_seconds=15` in CC settings (or directly in `app_config`)
- [ ] **[M]** Mitra goes online, sends one heartbeat
- [ ] **[BE]** Manually delete the heartbeat key: `DEL mitra:heartbeat:<id>`
- [ ] **[BE]** Wait up to 25s (15s stale + 10s sweep cadence)
- [ ] **[BE]** Postgres: `is_online=false` for this mitra, audit row in `mitra_online_logs` with status='offline'
- [ ] **[BE]** Valkey: `SISMEMBER mitras:online <id>` = 0, no `mitra:heartbeat:<id>` key
### Sweep skips on Valkey error
- [ ] **[BE]** Stop Valkey
- [ ] **[BE]** Backend log shows `[auto-offline] valkey unavailable, skipping this tick:` each sweep cadence
- [ ] **[BE]** **No Postgres UPDATE fires** during the outage (verify with query log) — confirms we don't mass-offline on Valkey hiccup
---
## Section H — Heartbeat → Postgres batched mirror
Verifies the 60s UNNEST UPDATE.
- [ ] **[BE]** Multiple mitras online, all heartbeating
- [ ] **[BE]** Set `HEARTBEAT_MIRROR_INTERVAL_SECONDS=15` for faster cycles, restart
- [ ] **[BE]** Wait one mirror cycle — Postgres log shows **one** UPDATE statement (with `UNNEST(...)` containing all online mitra IDs)
- [ ] **[BE]** `SELECT last_heartbeat_at FROM mitra_online_status WHERE is_online=true` returns timestamps within last cycle
- [ ] **[BE]** Compare with Valkey `GET mitra:heartbeat:<id>` — Postgres lags Valkey by ≤ mirror-cadence seconds (forensic-grade, not real-time)
### Mirror skips on Valkey error
- [ ] **[BE]** Stop Valkey
- [ ] **[BE]** Backend log shows `[heartbeat-mirror] valkey unavailable, skipping:` each cycle
- [ ] **[BE]** Postgres `last_heartbeat_at` does NOT advance during the outage (correct — Valkey is the source of "when was last ping?")
---
## Section I — Reconciliation sweep
Verifies drift heals every `VALKEY_ONLINE_MIRROR_SWEEP_SECONDS`.
- [ ] **[BE]** Set `VALKEY_ONLINE_MIRROR_SWEEP_SECONDS=30` for faster test, restart
- [ ] **[BE]** Manually corrupt Valkey:
```
SADD mitras:online 00000000-0000-0000-0000-000000000999 # bogus ID
SREM mitras:online <real-online-mitra-id> # remove a real one
SET mitra:capacity:<real-id> 99 # bogus capacity
```
- [ ] **[BE]** Wait one sweep cycle (~30s) → log shows `[valkey-mirror] seed:` again
- [ ] **[BE]** After sweep: Valkey state matches Postgres exactly (bogus ID gone, real ID present, capacity reset)
### Sweep disabled when env=0
- [ ] **[BE]** Set `VALKEY_ONLINE_MIRROR_SWEEP_SECONDS=0`, restart
- [ ] **[BE]** Confirm no periodic seed log appears after the initial startup seed
---
## Section J — Failure modes (Valkey degradation)
End-to-end behavior when Valkey is down for an extended period.
- [ ] **[BE]** Stop Valkey
- [ ] **[C]** Customer beacon poll → `availability:snapshot` GET fails → falls back to Postgres JOIN; UX unchanged but DB query rate spikes
- [ ] **[C]** Customer triggers blast → `findAvailableMitras` Valkey path fails → falls back to Postgres JOIN; blast still works
- [ ] **[M]** Mitra heartbeat → Valkey write fails (logged), but heartbeat returns 200; the missed write is irrelevant (auto-offline sweep is also skipping)
- [ ] **[M]** Mitra toggle online → Postgres update succeeds, Valkey SADD fails (logged); on next reconciliation sweep after Valkey returns, mitra is back in `mitras:online` SET
- [ ] **[BE]** Restart Valkey → reconnect listener fires → `seedFromPostgres()` runs → state restored; degraded period ends
---
## Section K — Multi-instance (defer until Cloud Run)
Run only when ≥ 2 backend instances are active.
- [ ] **[BE]** Two instances both run their own seed on startup — final Valkey state is consistent (idempotent `DEL + SADD`)
- [ ] **[BE]** Concurrent setOnline calls on the same mitra from different instances → final SET state correct (atomic SADD)
- [ ] **[BE]** `availability:snapshot` cache miss on instance A fills the snapshot; instance B's next poll reads the cached value (cluster-shared cache works)
- [ ] **[BE]** Operator changes `max_customers_per_mitra` on one instance → `config:invalidate` pub/sub fires → other instance also DELs `availability:snapshot`
- [ ] **[BE]** Heartbeat mirror UPDATEs from multiple instances are idempotent (last writer wins on timestamp, no errors)
---
## Smoke tests (quick happy path)
5-minute sanity check after any deploy:
- [ ] **[BE]** Backend log shows successful seed on startup
- [ ] **[M]** Mitra toggles online → appears in `SMEMBERS mitras:online`
- [ ] **[C]** Customer sees "Mulai Curhat" enabled
- [ ] **[C]** Customer pays → mitra accepts → chat starts → `mitra:capacity:<id>` increments
- [ ] **[C]** Chat ends → counter decrements
- [ ] **[M]** Mitra toggles offline → removed from SET
---
## Known limitations / what this checklist does NOT cover
- **Load testing** — sustained heartbeat volume at prod scale (300+ mitras × 2 pings/min). Plan: separate load-test stage when prod is provisioned.
- **Memorystore-specific behavior** — failover, RDB+AOF interaction. Plan: re-run Sections A, G, I, J against Memorystore Standard tier before prod cutover.
- **Long-running drift** — overnight runs where eviction or memory-pressure could affect Valkey state. Plan: monitor `INFO memory` in prod for the first week.