Failing application-layer tests over fake ports (IWorkflowClient, IAclClient,
IRegistrationStore):
- Submit persists an INGEDIEND registration and starts the registratie process,
recording the instance id — and persists *before* starting, so the worker can
correlate the OpenZaakAanmaken job back to its aggregate (ADR-0009).
- The worker opens a zaak via the ACL and attaches it; an unknown registration
throws (job left for redelivery); a redelivered job is idempotent and opens no
second zaak (§8.6).
Handlers are stubs (no persistence / no ACL call) so the tests compile and fail
on their assertions; the green commit implements them.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Submit requires a bsn and starts the aggregate in INGEDIEND; the started
process-instance id is recorded; AttachZaak stores the ACL's zaak URL,
tolerating a duplicate (at-least-once worker delivery) and rejecting a
conflicting URL, without advancing the status.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Failing unit tests for the Registration aggregate root: a submission starts
in INGEDIEND carrying its bsn, an empty/whitespace/null bsn is rejected, the
started process-instance id is remembered, and attaching the zaak the ACL
opened records its URL idempotently (a conflicting URL is rejected) while the
status stays INGEDIEND.
The aggregate is a stub (no-op mutators, empty bsn) so the tests compile and
fail on their assertions; the green commit implements the invariants.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Add projection-db + the two services to both compose files (host ports 8110/8120), their
Dockerfiles (repo-root context — they share Projection.ReadModel), and a runner-safe
verify-projection check (infra/run-projection-check.sh) that registers the abonnement at the
real subscriber, creates a zaak and asserts projection-api serves an INGEDIEND row. Wire it
into make (verify-projection, verify, WAIT_SVCS) and the CI verify-stack job, and run the
event-subscriber Stryker ratchet in `make mutation` + upload its report.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Check the Authorization header before deserializing the notification, and read/parse the
body manually. NRC probes a new abonnement's callback with a request that has neither the
configured auth nor a valid notification body, and refuses to register unless it gets a 401
(not a 400) — ADR-0007. Mirrors the verify harness's sink contract.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Sharpen the projector tests so Stryker has no survivors (was 75%): assert a replayed
delivery never reaches the store (upsert count, not just row count), that two distinct
zaken get distinct rows (pins the idempotency key), that rebuild clears stale rows, and
a Theory over wrong kanaal/resource/actie combinations (pins the zaken/zaak/create guard).
Add the per-service Stryker config + solution; break threshold 90 (CLAUDE.md §5).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Add the projection persistence and the two services around it:
- Projection.ReadModel: a shared EF Core (Npgsql) read model owning the projection
schema — register_projection + the subscriber's processed_notifications log — plus
EfProjectionStore / EfNotificationLog (atomic record-or-skip on the PK for idempotency)
and the initial migration. One rebuildable store, written by the subscriber and read
by projection-api (ADR-0008).
- EventSubscriber.Api: POST /notifications NRC callback (enforces the abonnement bearer,
401 without it per ADR-0007), POST /admin/rebuild, /health. Migrates on start.
- ProjectionApi.Api: GET /register, GET /register/{id}, /health — the read side.
dotnet-ef pinned as a local tool for migrations; NuGetAuditMode=direct so EF's
design-time-only tooling transitive doesn't flag the shipped build.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Implement NotificationProjector: a zaken/zaak/create notification records the delivery
in the notification log (atomic record-or-skip for idempotency, §8.6) and upserts an
INGEDIEND projection row keyed by zaak id; other channels/actions are ignored. Rebuild
clears the projection and replays the log — no OpenZaak access needed (§8.1). bsn/naam
are deferred (ADR-0008).
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Failing unit + acceptance tests for the Event Subscriber's NotificationProjector:
a zaken/zaak/create notification yields one INGEDIEND projection row, duplicate
deliveries collapse to one row, non-zaak/non-create notifications are ignored, and
a rebuild repopulates the projection from the durable notification log (PRD §8.4).
The projector is a no-op stub so the tests compile and fail on the assertions; the
implementation follows in the green commit. The notification log doubles as the
idempotency guard and rebuild source so a rebuild needs no OpenZaak access (§8.1).
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>
OpenZaak runs behind uwsgi, which rejects a chunked request body with 400.
JsonContent streams without a Content-Length (Transfer-Encoding: chunked), so
buffer it first. Only a real OpenZaak surfaces this — the integration test from
the previous commit now passes. A unit test asserts a Content-Length is sent
(captured before the stub reads/buffers the body), guarding the fix in the fast
lane and killing the Stryker mutant that would otherwise survive.
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>
Stryker exposed thin ACL tests (35% mutation score): the suite never asserted
the geo CRS headers, the ArgumentNullException guards, the non-success and
empty-body error paths, or the structure of the minted ZGW JWT — so mutating
any of those survived.
Strengthen the unit tests to kill those mutants:
- assert Accept-Crs / Content-Crs are EPSG:4326,
- assert OpenZaakAsync rejects a null request/registration without calling out,
- assert a non-2xx response throws and an empty body throws InvalidOperationException,
- decode the Bearer token and assert the HS256 header + acl identity claims.
Raises the ACL mutation score to 95%. The one remaining survivor mutates only
the exception *message* text (an equivalent mutant — message strings are not
worth a brittle assertion).
Refs #47.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Adds the ACL multi-stage Dockerfile and .dockerignore, and expands
infra/docker-compose.yml from the BFF-only stub to the full development
stack (OpenZaak, NRC, Keycloak, Flowable, ACL, BFF). Without these
files a fresh checkout cannot satisfy `make smoke`'s `docker compose
up --build --wait` step, so `make ci` could never go green.
`make lint && make build && make unit` verified green locally.
`make smoke` requires Docker Compose v2 (`--wait` flag); on this dev box
only podman-compose is available — smoke will be verified on the
respellion-linux CI runner once it is registered (see docs/runbooks/ci.md).
Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>