On the single self-hosted runner CI jobs run sequentially, so booting OpenZaak once
beats once-per-job. Replace the integration + notifications + compose-smoke jobs with
one verify-stack job that brings the full stack up once and runs, as clearly-named
steps: health (make verify-up, the DoD smoke) → ACL ↔ OpenZaak (verify-acl) →
OpenZaak → NRC delivery (verify-nrc) → teardown (always) + log dump on failure.
The check logic moves into stack-agnostic runners (run-acl-integration.sh,
run-notification-check.sh) that operate on whatever stack is already up, reaching
services by container IP. The local single-concern wrappers (make integration oz-only,
make verify-notifications oz+nrc) keep working by delegating to the same runners, so
nothing is duplicated. make ci now runs the consolidated 'verify' stage.
Verified locally: make verify boots the full stack once, ACL integration passes and
the NRC notification is delivered, then tears down.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Completes the S-01-c wiring so a zaak created in OpenZaak is published to NRC:
- OpenZaak: a zgw_consumers 'nrc' service + notifications_config (setup_configuration),
publishing as big-reference-seed. NOTIFICATIONS_DISABLED stays true for OpenZaak-only
bring-ups (OZ_NOTIFICATIONS_DISABLED) so the ACL integration test doesn't 500; the
full/local stacks and stack-up set it false.
- NRC: the JWT credential, an 'ac' service + autorisaties_api delegation to OpenZaak's
Autorisaties API, and the 'zaken' kanaal. nrc-init now runs setup_configuration; its
data.yaml is delivered via the rr-nrc-config volume (seed-config.sh nrc), mirroring oz.
- nrc-beat added to every stack: NRC accepts a notification then drains it via a
scheduled execute_notifications task — without beat, nothing is delivered. Interval 5s.
Applied across the standalone, full, and local-bind-mount composes.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The hosted runner can't reach the stack's published ports (sibling containers),
so run the seed and the test as containers joined to the OpenZaak network,
reaching it by container IP — a single-label host like 'openzaak' isn't URL-valid
for OpenZaak's own URLValidator, but an IPv4 literal is. Code is delivered via
image build / docker cp (bind mounts don't reach the daemon either).
- infra/run-integration.sh: up -> wait healthy (docker inspect) -> seed published
zaaktype (python container on the net) -> build + run the test image on the net
-> always tear down. Plain docker primitives only (portable docker/podman).
- services/acl/Dockerfile.integration: builds + runs Acl.IntegrationTests; dotnet
lives in the image, so the CI job needs only Docker (no setup-dotnet).
- make integration now delegates to the script; re-added the Gitea Actions job.
Supersedes the local-only gap documented earlier; #55 is no longer needed.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
S-04a: the deferred S-04 acceptance criterion. A gated Acl.IntegrationTests
project (Category=Integration) drives the real OpenZaakGateway against the
running compose stack — real ZGW JWT auth and the real POST /zaken contract a
stubbed HttpMessageHandler cannot exercise. The lane is kept out of the fast
checks: make unit filters Category!=Integration, Stryker is pinned to Acl.Tests,
and a new make integration target brings the stack up, seeds a published zaaktype
and tears down.
Red: against real OpenZaak the gateway POST fails 400 — JsonContent streams the
body chunked and OpenZaak's uwsgi rejects it. Fixed in the next commit.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Configure Stryker.NET for the ACL in solution mode (Acl.slnx), so both
Acl.Application and Acl.Infrastructure — the two projects under test — are
mutated while Acl.Api (untested) is skipped. Record the repo-wide mutation
baseline as the ratchet (CLAUDE.md §5): observed score 95%, enforced break
threshold 90% (one-mutant headroom over the ~20-mutant surface). The ACL is the
first service with branching logic, so it sets the baseline; later slices
ratchet it up deliberately, never down.
Add a `mutation` make target (`dotnet tool restore` + `dotnet stryker`) and wire
it into the `make ci` aggregate, keeping `make ci` an exact mirror of the
pipeline.
Refs #47.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Adds infra/docker-compose.local.yml: the same full stack as the canonical
infra/docker-compose.yml, but the three config inputs (OpenZaak data.yaml,
Keycloak realms, Flowable BPMN) are bind-mounted from the repo instead of
streamed into external volumes by seed-config.sh.
Bind mounts are valid here because a local daemon (Docker Desktop on Windows/
macOS, or rootless Podman on Linux) can see the working directory — the seed
dance only exists for the containerized CI runner, where it can't. So this file
runs with a plain `docker compose up`: no make, no seed step, no bash.
docker compose -f infra/docker-compose.local.yml up -d --build
docker compose -f infra/docker-compose.local.yml up -d --build --wait # Docker Desktop
Linux/macOS convenience wrappers `make local` / `make local-down` added too.
Verified on podman: Keycloak boots from this file and imports the bind-mounted
realms (digid realm returns 200). docs/runbooks/ci.md documents the Windows path.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
`make smoke` errored locally because podman-compose doesn't implement
`docker compose up --wait` (`unrecognized arguments: --wait`).
Replace the `--wait` step with infra/wait-healthy.sh, which polls each durable
health-checked service ($(WAIT_SVCS)) via `docker ps` + `docker inspect
'{{.State.Health.Status}}'`. This:
- works on both docker compose (CI) and podman-compose (local) — only plain
docker primitives, no `--wait`;
- reads the in-container healthcheck, so it needs no host port access (the CI
runner can't reach published ports);
- ignores the one-shot init jobs, sidestepping the "--wait fails when a
consumer-less one-shot exits 0" issue (flowable-init).
Verified on podman-compose: wait-healthy.sh reports bff healthy (rc=0); podman
exposes .State.Health.Status (starting -> healthy) and the name filter matches
both `_` and `-` container naming.
Docs: gitea-actions-gotchas.md updated (the two `--wait` sections folded into one
"portable health poll" section).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Drops the inline-build images for the upstream services. The compose now
references the published images directly (openzaak/open-zaak,
openzaak/open-notificaties, keycloak, curl, flowable-rest) with no build for
them, and the config they need is streamed into external named volumes by
infra/seed-config.sh:
rr-oz-config -> oz-init /app/setup_configuration (data.yaml)
rr-kc-realms -> keycloak /opt/keycloak/data/import (realm exports)
rr-fl-bpmn -> flowable-init /work (registratie.bpmn)
How: the seeder creates each volume, `docker create`s a throwaway helper that
mounts it, `docker cp`s the files in, and removes it. docker cp streams over the
Docker API, so it works in Docker-in-Docker (the CI runner) where bind mounts
mount empty. It uses plain `docker create`/`cp` — NOT `docker compose create`,
which podman-compose (local dev) lacks. `external: true` fixed names keep the
volumes identical across docker compose and podman-compose.
Consequence: bare `docker compose up` no longer self-seeds, so use `make up`
(seeds then starts). Every `*-up` target seeds first; `*-down` removes the
external volume. acl/bff are still built (they're our apps, not upstream images).
Verified end-to-end on podman-compose: `make keycloak-up` seeds rr-kc-realms,
the upstream Keycloak mounts it, and --import-realm imports all four realms
(digid realm returns 200). Seeder runs in ~2s.
Docs updated: gitea-actions-gotchas.md, ci.md, openzaak.md.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Run 28 got the full stack healthy but `compose-smoke` still failed. The last
compose line before the error was:
container infra-flowable-init-1 exited (0)
`docker compose up --wait` treats a service that exits as a failure of the
"stay running" condition unless something depends on it via
`service_completed_successfully`. oz-init/nrc-init are fine (openzaak/nrc-web
depend on them), but flowable-init deploys the BPMN and exits 0 with no
dependant, so whole-project `--wait` failed the instant it finished — even
though everything else was healthy and nrc-init now exits 0.
Smoke now:
1. `up -d` starts the full stack (one-shots run + deploy as before), then
2. `up -d --wait <WAIT_SVCS>` waits only for the durable health-checked
services (openzaak nrc-web acl bff).
Also drops the external `curl localhost:8080/health`: the containerized CI
runner can't reach published host ports at localhost, and each service's
healthcheck already runs inside its container — so `--wait` succeeding IS the
smoke. Documented in docs/runbooks/gitea-actions-gotchas.md.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
With OpenZaak now coming up, nrc-init ran for the first time and failed:
nrc-init-1 | CommandError: No steps enabled, aborting.
NRC's setup_configuration/data.yaml is intentionally empty ({}) — the
OZ<->NRC wiring is deferred to S-06 — but /setup_configuration.sh runs
`manage.py setup_configuration` regardless, and NRC 1.16.1 aborts when no
steps are enabled. (This was masked until now: oz-init failed first, so
openzaak never became healthy and nrc-init, which waits on it, never ran.)
The documented intent is "init runs migrations only", so nrc-init now runs
`manage.py migrate` directly instead of /setup_configuration.sh, and the
dead RUN_SETUP_CONFIG env is dropped from the NRC services. nrc-web still
migrates + creates the superuser itself via /start.sh.
Also:
- Makefile: bump compose `--wait-timeout` 300 -> 420. The serial
oz-db -> oz-init -> openzaak(healthy) -> nrc-init -> nrc-web(healthy)
chain runs ~260 s on the runner; 420 s gives comfortable headroom.
- ci.yaml: widen the on-failure log dump to oz-init, openzaak, nrc-init,
nrc-web, flowable-init, keycloak, acl, bff for full diagnosability.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Three root-cause fixes for the oz-init CI failure:
1. Smoke timeout: add --wait-timeout 300 to `docker compose up --wait`
so CI has 5 minutes instead of the 60-second default in older Compose
v2 releases (migrations alone take 50 s locally).
2. PostGIS race: the old healthcheck used pg_isready which only checks
TCP connectivity — it passes before the postgis/postgis init scripts
have run SELECT PostGIS_Version(). The new check adds a psql probe so
oz-init does not start until PostGIS is actually available.
3. Remove :z from volume mounts: the SELinux re-label flag is
Podman/Fedora-specific and a no-op (or unexpected) under Docker on
ubuntu-latest; plain :ro is correct for both runtimes.
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>