24 KiB
Showcase Railway Operations
Tagline: fleet-wide auto-update config, pending service provisioning, and the
recipe for adding a new Railway service. For day-to-day promote/snapshot/pin
operations see ./bin/README.md. For aimock-specific
service reconstruction see ./aimock/RAILWAY.md.
built-in-agent service
built-in-agent → image showcase-built-in-agent is fully provisioned in the
ALL_SERVICES matrix in showcase_build.yml (real railway_id
f4f8371a-bc46-45b2-b6d4-9c9af608bdbf; ciBuilt/gateValidated set in
showcase/scripts/railway-envs.ts).
Single-service Next.js app (BuiltInAgent runs in-process; no separate
agent server). Required env: OPENAI_API_KEY. Health probe at
/api/health.
The matching starter-built-in-agent is intentionally absent from the build
matrix: the starter tooling (showcase/scripts/extract-starter.ts,
provision-starter-fleet.ts) does not yet support single-service packages, so
the starter will be added in a follow-up PR alongside that support.
Auto-Updates (Fleet-Wide)
Most image-sourced Railway services have source.autoUpdates.type = "minor"
(24 of the 40 services in the production environment as of this writing); the
12 starter-* services and a handful of others (incl. showcase-built-in-agent,
harness-workers, showcase-ms-agent-harness-dotnet, webhooks) currently
have none. Most of the minor services carry no source.autoUpdates.schedule
at all, so updates apply immediately whenever a new digest lands; only aimock
carries a schedule array (covering all hours, every day — operationally
equivalent to no schedule). When a new GHCR :latest digest is pushed, Railway
auto-pulls and redeploys those services without manual intervention.
CI (showcase_build.yml, "Build & Push") still triggers an explicit
serviceInstanceRedeploy (via redeploy-env.ts) after each GHCR push for
deterministic health-checking; showcase_deploy.yml ("Verify Deploy") then
health-checks that redeployment. The auto-update is a safety net, not the
primary deploy path.
Adding a New Railway Service
-
Enable auto-updates via the GraphQL API:
mutation { environmentPatchCommit( environmentId: "<env-id>" patch: { "services": { "<new-service-id>": { "source": { "autoUpdates": { "type": "minor" } } } } } commitMessage: "Enable image auto-updates" ) }Or via Dashboard: Settings > Configure Auto Updates > "Automatically update to the latest tag" + "At any time, immediately".
-
Add to
showcase_build.ymlALL_SERVICESmatrix so CI builds and pushes the GHCR image on code changes. -
No
smoke.ymledit needed for a normalshowcase-*service —showcase/harness/config/probes/smoke.ymlis auto-discovery driven and picks up any newshowcase-*service on the next tick. Only edit itsfilter.nameExcludesto EXCLUDE an infra / non-runtime service. -
Git-based services: auto-updates only apply to image-sourced services. Skip step 1 for git-deploy services.
Promoting a Staging-Only Integration to Production
When this applies
You added an integration staging-only on purpose — it ships to staging
first and its prod instance is deferred to "promote later." In the SSOT
(showcase/scripts/railway-envs.ts) such an entry looks like the
showcase-strands-typescript block did before PR #5705:
gateValidated: false,gateIgnore: true,- an
environments:map containing onlystaging(noprodblock, so no prodserviceInstanceID exists), - a
legacyJsonCompat.domains.prodplaceholder pointing at the borrowed staging host, purely to keep the generated JSON's legacy{prod, staging}shape (it is never dereferenced by any TS accessor).
This is the worked example to follow — showcase-strands-typescript was
promoted exactly this way in PR #5705.
The critical gotcha (read this first)
The promote pipeline only promotes image digests to a prod service that
ALREADY exists — it does NOT provision a new prod serviceInstance. Both the
promote workflow (showcase_promote.yml, "Showcase: Promote (staging → prod)")
and bin/railway promote move the staging-tested @sha256 digest onto an
existing prod instance; neither has a "create the prod service" step (there is
no provisioning subcommand in bin/railway). So a staging-only integration
will never appear in prod just by running promote.
Until the prod serviceInstance exists, D6 false-reds the entire column:
the harness has no health:<slug> record for prod, so the per-cell probe is
handed an empty backendUrl, Playwright calls page.goto("/demos/…") on a
bare relative path, and Chromium rejects it as an invalid URL —
errorClass=goto-error on every cell (column-wide, uniform fail_count).
The fix is not a code fix; it is provisioning the missing prod instance and
flipping the SSOT gate.
Ordered checklist
-
Provision the prod Railway
serviceInstance. This is out-of-band (nobin/railwaysubcommand covers it; see./bin/README.md, which defers "new-service provisioning" to this doc). Use the GraphQL staged-change primitive, mirroring a peer prod TypeScript showcase service (PR #5705 mirroredshowcase-claude-sdk-typescript):environmentStageChanges(production, …)— stage aservices.<svc>block copied from the peer:source.image(pinned@sha256digest withautoUpdates.minor),networking.serviceDomains.<prod-domain>,build.builder RAILPACK, and adeployblock (reused GHCRregistryCredentials, runtime V2,healthcheckPath: /api/health,multiRegionConfig).environmentPatchCommitStaged(production, <msg>)— commit the staged change; this materializes the prodserviceInstance(in PR #5705,8a50728e-6119-43c4-b59c-d9535b6717a4).- Deploy it (
serviceInstanceDeployV2) and poll the deployment toSUCCESS.
-
Edit the SSOT (
showcase/scripts/railway-envs.ts) — convert the entry to the dual-envshowcase-strandsshape:- add a
prodenv block underenvironments:with the realinstanceId,healthcheckPath: "/api/health", the proddomain, andprobe: true; - set
gateValidated: true(per thegateValidateddoc in that file, new SSOT services MUST landgateValidated: true;gateIgnoreis only for "deliberately-untracked third-party / domainless / single-env services" — a prod-promoted demo is none of those); - remove
gateIgnore: true; - remove the
legacyJsonCompatprod-domain placeholder (the borrowed staging host); - update the leading comment to reflect the dual-env state.
See the PR #5705 diff on this file for the exact before/after.
- add a
-
Regenerate the derived artifacts and run the gate:
npx tsx showcase/scripts/emit-railway-envs-json.ts— regeneraterailway-envs.generated.json(CI verifies with--check).- Regenerate the golden fixture
showcase/scripts/__tests__/fixtures/railway-envs.golden.jsonso the new prod(service, env)pair is captured — this is an intentional behavior change, not a refactor regression (railway-envs.golden.test.tsis a behavior-preservation guard). npx tsx showcase/scripts/sync-promote-service-options.ts— regenerate theshowcase_promote.ymlworkflow_dispatch dropdown so the slug becomes a promote target (CI verifies with--check).npx tsx showcase/scripts/verify-railway-image-refs.ts— run the image-ref gate; withgateValidated: trueit now validates the prod pin too.- Run the scripts test suite (
pnpm exec vitest runfromshowcase/), includingverify-railway-image-refs.test.tsandredeploy-env.test.ts, whose gate-target / redeploy-scope counts and "staging-only" comments change when the entry flips dual-env.
-
Secrets. A prod TypeScript integration gets its provider keys (
OPENAI_API_KEY/ANTHROPIC_API_KEY, andOPENAI_BASE_URLfor aimock-routed agents) from the prod env's variable set, mirroring the peer prod service's config — set them on the new prod instance, never inline a secret value in the SSOT or in a commit. If the agent routes 100% to aimock (theserviceRefs: [{ key: "OPENAI_BASE_URL", target: "aimock" }]case),OPENAI_BASE_URLpoints at the prod aimock origin and theOPENAI_API_KEYis the non-secretsk-aim…aimock placeholder — so no real prod secret is sourced. TheOPENAI_BASE_URLservice-ref is asserted prod→prod by the promote preflight (never copied across envs). -
Verify GREEN. After the prod instance is up:
- prod
/api/healthreturns 200 (https://showcase-<slug>-production.up.railway.app/api/health); - the prod PocketBase
healthcollection gains ahealth:<slug>record (dimension="health",status:200, a real produrl); - the D6 column flips on the prod harness's next hourly
d6-all-pills-e2etick (runs at:40). The probe needs the harness to have discovered the new prod health record first, so expect up to ~1 hour of lag — the column stays red until the next tick even though the service is healthy. Don't panic about that lag; confirm health (200 + the PocketBase record) as the discriminating GREEN signal, then let the tick clear the cells.
- prod
Once promoted, run the digest promote itself the normal way —
showcase_promote.yml (now listing the slug) or bin/railway promote; see
./bin/README.md "Worked example: promote staging →
production".
CVDIAG instrumentation + per-request X-AIMock-Strict forwarding (REQUIRED)
Any integration being added or promoted MUST also be wired for flap-observability (CVDIAG) and per-request header forwarding, or its D6 column can silently degrade. Two non-optional steps:
-
CVDIAG backend instrumentation. Add the slug to
_CVDIAG_TS_INTEGRATIONSinscripts/cli/cmd-cvdiag-stage-ts.shand runbin/showcase cvdiag-stage-ts(then--check, which must exit 0 with zero drift). This stages the co-locatedsrc/cvdiag/emitter into the integration's standalone build context. Then WIRE the emitter so backendbackend.*boundaries actually emit and persist to thecvdiag_eventsPocketBase collection (setCVDIAG_BACKEND_EMITTER,CVDIAG_PB_URL,CVDIAG_WRITER_KEYon the prod env's variable set, mirroring the local compose service). Without backend rows,bin/showcase cvdiag classifyhas nothing to classify and a flap cannot be diagnosed. -
Per-request
X-AIMock-Strictforwarding. The probe sendsX-AIMock-Strict: true(+x-test-id,x-aimock-context,x-diag-*) on every request so a fixture MISS becomes a HARD FAILURE instead of silently proxying to the real provider. The integration's outbound LLM call to aimock MUST carry that header through. If it does not, a fixture miss falls through and a stale/drifted answer renders as a PASS — the classic symptom is the D3 column flapping (an e2e cell intermittently going amber/red) because the rendered answer is non-deterministic real-provider output rather than the pinned fixture. Forward ONLY headers PRESENT inbound (never hardcode strict on) so ordinary demo traffic still proxies normally.
Two-process caveat. For a two-process integration (a Next proxy route in
front of a separate agent process — e.g. strands-typescript,
claude-sdk-typescript, where the Next route is a bare HttpAgent proxy and
the model call happens in the agent process), the CVDIAG emitter AND the header
forwarder must live agent-side, not on the Next route. Wrapping the Next
route would instrument the proxy hop, not the real model call, and the AG-UI
transport may drop inbound x-* before agent.run() (e.g.
@ag-ui/aws-strands reads only req.body + accept). The seams are: (a) the
Next route forwards inbound x-* onto the proxy POST (HttpAgent fetch
option + an AsyncLocalStorage snapshot), and (b) the agent process recovers
them via a middleware mounted before the framework handler, seeds an
AsyncLocalStorage, and the model client's fetch override injects them on the
outbound aimock call. See integrations/strands-typescript/src/agent/{header-forwarding,cvdiag-backend-strands}.ts
for the worked two-process example, and integrations/built-in-agent/src/lib/header-forwarding.ts
for the in-process precedent.
Two-process Docker staging (REQUIRED). When the separate agent process
imports the co-located emitter directly (e.g. ../cvdiag/cvdiag-emitter.js),
the integration's Dockerfile MUST COPY src/cvdiag into the runner stage so
the emitter ships in the image — e.g. COPY --chown=app:app src/cvdiag ./src/cvdiag immediately after the COPY --chown=app:app src/agent ./src/agent.
Single-process integrations (mastra, langgraph-typescript,
claude-sdk-typescript) get the emitter via Next's .next bundling and do NOT
need this extra COPY. Symptom if omitted: the image passes local d6 — where
bin/showcase cvdiag-stage-ts materializes the emitter into the working tree —
but crashes at boot in Docker/staging with ERR_MODULE_NOT_FOUND: .../src/cvdiag/cvdiag-emitter.js, so the agent never starts and the D6 column
never renders.
Related: for the single-shot "create prod service → go live" bring-up (where prod is provisioned immediately, with no staging-first phase), see
./INTEGRATION-CHECKLIST.md§B. This section is the staging-first → promote-later counterpart.TODO:
INTEGRATION-CHECKLIST.md§B.3 still namesshowcase_deploy.ymlas the build/push workflow to edit; the build/push matrix has since moved toshowcase_build.yml("Build & Push"), withshowcase_deploy.ymlnow the staging verify gate. Correct §B.3 in a follow-up.
harness-workers Replica Count (Worker Provisioning)
The harness-workers fleet provisioning is tracked in the SSOT at
showcase/scripts/railway-envs.ts under the harness-workers entry's
workerProvisioning field. The railway-envs.generated.json snapshot
captures these values for CI drift detection.
Worker model (1-worker-per-replica)
Railway runs one worker process per replica container (keyed on HOSTNAME).
There is no per-process forking. The live worker count equals the effective
replica count strictly 1:1. HARNESS_POOL_COUNT is an informational-only
control-plane hint — it does NOT fork additional workers. The authoritative
per-worker concurrency knob is BROWSER_POOL_MAX_CONTEXTS.
Effective replica count — multiRegionConfig, not top-level numReplicas
harness-workers is a single-region service (us-west2). Railway derives the
LIVE running replica count from the per-region
multiRegionConfig.us-west2.numReplicas field — this is the effective knob the
deploy honors. The top-level numReplicas is a legacy aggregate that Railway
keeps in sync with the region sum, but it is NOT the field that drives reality.
The SSOT therefore models the effective count as effectiveReplicas
(= multiRegionConfig.us-west2.numReplicas) and keeps the top-level
numReplicas only as a documented mirror. The CI drift gate asserts
effectiveReplicas.
Current declared values (live reality as of 2026-06-26)
Verified live via the Railway GraphQL environment.config staged-config read —
both envs carry deploy.multiRegionConfig = {"us-west2":{"numReplicas":6}}.
| Env | effectiveReplicas (= multiRegionConfig.us-west2.numReplicas, live workers) |
numReplicas (mirror) |
BROWSER_POOL_MAX_CONTEXTS |
|---|---|---|---|
| prod | 6 | 6 | 40 |
| staging | 6 | 6 | 40 |
Prod/staging parity achieved: B-reconcile scaled prod harness-workers
from 3 → 6 replicas (updating BOTH the top-level numReplicas AND
multiRegionConfig.us-west2.numReplicas) to match staging (6). Prod and staging
are now at parity (6/6). The earlier prod=3 state and the prior staging
config-field-vs-live drift (config field 2 / 6 live) are both resolved — the
live staged config now reads 6 in both envs.
SSOT fields
workerProvisioning.{prod,staging}.effectiveReplicas— AUTHORITATIVE worker count (=multiRegionConfig.us-west2.numReplicas, the field Railway honors; 1:1 with live workers). This is the field the drift gate watches and the ONLY field that drives the live replica count.workerProvisioning.{prod,staging}.numReplicas— top-level Railway field, retained as a DOCUMENTED MIRROR ofeffectiveReplicas(equal on a single-region service). Not an authoritative knob.workerProvisioning.{prod,staging}.BROWSER_POOL_MAX_CONTEXTS— per-worker Playwright context budget.workerProvisioning.{prod,staging}.HARNESS_POOL_COUNT— INFORMATIONAL ONLY; records what theHARNESS_POOL_COUNTenv var is set to on Railway for audit visibility. Never use this as a worker count or fork factor.workerProvisioning.{prod,staging}.overlapSeconds— deploy-rollover capacity floor (= RailwayserviceInstance.overlapSeconds, env mirrorRAILWAY_DEPLOYMENT_OVERLAP_SECONDS). See Deploy rollover below.workerProvisioning.{prod,staging}.drainingSeconds— graceful-drain window (= RailwayserviceInstance.drainingSeconds, env mirrorRAILWAY_DEPLOYMENT_DRAINING_SECONDS). See Deploy rollover below.
Applying a replica count change (MANUAL)
The emit-railway-envs-json.ts emitter and bin/railway tooling are
VERIFY-ONLY with respect to the replica count — they do not write replica
counts to Railway. To change the replica count:
- Change the
effectiveReplicasvalue inrailway-envs.ts(SSOT) — and thenumReplicasmirror alongside it (keep them equal for this single-region service). - Regenerate the snapshot:
npx tsx showcase/scripts/emit-railway-envs-json.ts - Commit both files (
railway-envs.ts+railway-envs.generated.json). - Apply the change to Railway manually via the Railway Dashboard (Service >
Settings > Replicas, which edits
multiRegionConfig.us-west2.numReplicas) or the Railway GraphQL API.
The CI drift gate (showcase/scripts/__tests__/harness-workers-provisioning.test.ts)
will fail if railway-envs.ts and railway-envs.generated.json disagree on
effectiveReplicas, catching a forgotten regeneration step.
Deploy rollover (overlap + draining)
A harness-workers redeploy is the moment the staleness dip + cut-short worker
drains used to happen. Two Railway service settings — pure config, no custom
rolling-restart code — make a rollover non-lossy (no dip) and let the shipped
graceful worker drain finish. Both are tracked in the SSOT
(workerProvisioning.{prod,staging}.overlapSeconds / .drainingSeconds) and
guarded by the same drift gate as the replica count.
| Setting | Railway field (env mirror) | Value | What it does |
|---|---|---|---|
overlapSeconds |
serviceInstance.overlapSeconds (RAILWAY_DEPLOYMENT_OVERLAP_SECONDS) |
45 |
Capacity floor: keep the OLD deployment serving for 45s after the NEW one goes Active, so the live worker count never dips while new workers boot, register on the roster, and start claiming. |
drainingSeconds |
serviceInstance.drainingSeconds (RAILWAY_DEPLOYMENT_DRAINING_SECONDS) |
180 |
Graceful-drain window: the SIGTERM→SIGKILL budget the platform grants a draining worker before hard-killing it. |
Rationale.
overlapSeconds = 45holds the capacity floor: a new worker is not useful the instant its container is Active — it must boot, register its roster row, and start claiming. Overlapping the old deployment for 45s bridges that window so there is no observable staleness dip during a rollover.drainingSeconds = 180is set toPLATFORM_STOP_GRACE_MS(180s, defined inshowcase/harness/src/fleet/worker/worker-loop.ts) so the shipped composed worker-drain budget fits under the platform kill:DRAIN_DEREGISTER_TIMEOUT_MS(3s roster-delete cap) +DEFAULT_WORKER_DRAIN_GRACE_MS(90s finish-and-report grace, layer b) + the small serial teardown remainder, all< 180s. The Railway default is0s(the field isnull→0, confirmed via the live config read) — i.e. an effectively immediate SIGKILL after SIGTERM, which would cut the 90s drain short and abandon the in-flight cell; at 180s the worker finishes and reports its in-flight cell instead. Keep this≥ PLATFORM_STOP_GRACE_MS; if the layer-(b) grace is retuned, raise this in lockstep (the composed-budget test inworker-loop.test.tsis the source of truth for the relation).
Composition with the drain layers (full rationale in the
PLATFORM_STOP_GRACE_MS / DEFAULT_WORKER_DRAIN_GRACE_MS docs in
worker-loop.ts):
- Layer (a) — reaper backstop: a worker that genuinely overruns the 90s grace
is abandoned; its lease lapses and the control-plane sweeper re-queues the cell
neutral-gray.
drainingSecondsdoes not change this — it is the long-tail fallback. - Layer (b) — graceful drain: on SIGTERM the worker STOPS CLAIMING, lets its
in-flight cell FINISH within the 90s grace, and REPORTS its real terminal
result.
drainingSeconds = 180is the platform-side budget that lets layer (b) actually complete. - Layer (c) — this config:
overlapSecondsremoves the dip;drainingSecondshosts the drain. No code — it is the two service settings alone.
Applying (MANUAL). Like the replica count, the emitter/bin/railway tooling
is verify-only for these fields. To apply or change them:
- Edit
overlapSeconds/drainingSecondsinrailway-envs.ts(SSOT) for the env(s). - Regenerate:
npx tsx showcase/scripts/emit-railway-envs-json.ts, commit both files. - Apply to Railway manually, via EITHER:
- GraphQL —
serviceInstanceUpdate(serviceId, environmentId, input: { overlapSeconds: 45, drainingSeconds: 180 }); both fields areIntonServiceInstanceUpdateInput. - Dashboard — Service > Settings, the deploy Teardown/overlap card (or
set the
RAILWAY_DEPLOYMENT_OVERLAP_SECONDS/RAILWAY_DEPLOYMENT_DRAINING_SECONDSservice variables).
- GraphQL —
The CI drift gate also asserts overlapSeconds and drainingSeconds match
between railway-envs.ts and railway-envs.generated.json, catching a forgotten
regeneration.
Environment IDs
- Project:
<project-id> - Environment:
<env-id> - Token:
~/.railway/config.json->.user.token
Known Quirks
-
Polling frequency: Railway's auto-update polling interval is undocumented. Expect seconds to low minutes after a GHCR push.
-
API surface:
environmentPatchCommitis the only programmatic way to configure auto-updates. Typed GraphQL mutations (ServiceSourceInput) do not exposeautoUpdates. -
source.autoUpdates.typevalues:disabled,patch,minor. We useminor(any semver-compatible tag change, including:latestdigest changes). -
source.autoUpdates.schedule: array of{day, startHour, endHour}. Omit entirely for "any time, immediately". -
CI still redeploys explicitly:
showcase_build.ymltriggersserviceInstanceRedeploy(viaredeploy-env.ts) after the GHCR push, andshowcase_deploy.yml("Verify Deploy") health-checks that redeployment so it can verify the exact deployment it triggered. Auto-updates are the fallback, not a replacement for CI-driven deploy verification.