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77297a8d8e docs: MkDocs scaffold, ADR-0001, README quickstart (refs #32)
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Add mkdocs.yml (Material theme + nav), docs/index.md, and the first ADR
(docs/architecture/adr-0001-loose-coupling.md, Nygard template) recording
the loose-coupling stance from CLAUDE.md §8. Rewrite the README quickstart
to be accurate and reach a green local environment in under 10 minutes
(correct clone URL, .NET 10 + container-engine prereqs, `make ci` and the
compose smoke), and document building the docs site. Ignore .venv/ and site/.

Verified: `mkdocs build` succeeds; `make lint/build/unit` green.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-03 14:13:19 +02:00
266 changed files with 83 additions and 30899 deletions

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@@ -1,20 +0,0 @@
{
"version": 1,
"isRoot": true,
"tools": {
"dotnet-stryker": {
"version": "4.15.0",
"commands": [
"dotnet-stryker"
],
"rollForward": false
},
"dotnet-ef": {
"version": "10.0.0",
"commands": [
"dotnet-ef"
],
"rollForward": false
}
}
}

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@@ -1,17 +0,0 @@
# Editor configuration, see http://editorconfig.org
root = true
[*]
indent_style = space
indent_size = 2
insert_final_newline = true
trim_trailing_whitespace = true
# .NET sources use 4-space indent (dotnet format enforces this). The 2-space default
# above is for the frontend (TS/HTML/CSS/JSON); C# keeps the .NET convention.
[*.cs]
indent_size = 4
[*.md]
max_line_length = off
trim_trailing_whitespace = false

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@@ -17,147 +17,34 @@ permissions:
jobs: jobs:
lint: lint:
runs-on: ubuntu-latest runs-on: respellion-linux
steps: steps:
- uses: https://github.com/actions/checkout@v4 - uses: https://github.com/actions/checkout@v4
- uses: https://github.com/actions/setup-dotnet@v4 - uses: https://github.com/actions/setup-dotnet@v4
with: with:
dotnet-version: '10.0.x' dotnet-version: '10.0.x'
# Cache the NuGet package store so each .NET job restores from disk, not the network. There are
# no lock files (so setup-dotnet's built-in cache doesn't apply); key on the project files. @v3
# avoids the GHES guard that breaks @v4 on Gitea (gitea-actions-gotchas.md); cache is best-effort
# — a miss just restores from the network. See issue #73.
- uses: https://github.com/actions/cache@v3
with:
path: ~/.nuget/packages
key: nuget-${{ runner.os }}-${{ hashFiles('**/*.csproj') }}
restore-keys: |
nuget-${{ runner.os }}-
- run: make lint - run: make lint
build: build:
runs-on: ubuntu-latest runs-on: respellion-linux
steps: steps:
- uses: https://github.com/actions/checkout@v4 - uses: https://github.com/actions/checkout@v4
- uses: https://github.com/actions/setup-dotnet@v4 - uses: https://github.com/actions/setup-dotnet@v4
with: with:
dotnet-version: '10.0.x' dotnet-version: '10.0.x'
- uses: https://github.com/actions/cache@v3
with:
path: ~/.nuget/packages
key: nuget-${{ runner.os }}-${{ hashFiles('**/*.csproj') }}
restore-keys: |
nuget-${{ runner.os }}-
- run: make build - run: make build
unit: unit:
runs-on: ubuntu-latest runs-on: respellion-linux
steps: steps:
- uses: https://github.com/actions/checkout@v4 - uses: https://github.com/actions/checkout@v4
- uses: https://github.com/actions/setup-dotnet@v4 - uses: https://github.com/actions/setup-dotnet@v4
with: with:
dotnet-version: '10.0.x' dotnet-version: '10.0.x'
- uses: https://github.com/actions/cache@v3
with:
path: ~/.nuget/packages
key: nuget-${{ runner.os }}-${{ hashFiles('**/*.csproj') }}
restore-keys: |
nuget-${{ runner.os }}-
- run: make unit - run: make unit
# Frontend (Nx/Angular) lane: install with pnpm, then Nx lint + test + build. compose-smoke:
frontend: runs-on: respellion-linux
runs-on: ubuntu-latest
steps: steps:
- uses: https://github.com/actions/checkout@v4 - uses: https://github.com/actions/checkout@v4
- uses: https://github.com/pnpm/action-setup@v4 - run: make smoke
with:
version: 11
- uses: https://github.com/actions/setup-node@v4
with:
node-version: '24'
cache: 'pnpm'
- run: make frontend
mutation:
runs-on: ubuntu-latest
steps:
- uses: https://github.com/actions/checkout@v4
- uses: https://github.com/actions/setup-dotnet@v4
with:
dotnet-version: '10.0.x'
- uses: https://github.com/actions/cache@v3
with:
path: ~/.nuget/packages
key: nuget-${{ runner.os }}-${{ hashFiles('**/*.csproj') }}
restore-keys: |
nuget-${{ runner.os }}-
- run: make mutation
# Publish the Stryker HTML reports. `if: always()` uploads them even when the
# ratchet fails — that is exactly when you want to inspect the survivors.
# `continue-on-error` keeps the upload best-effort: the mutation *gate* is the
# ratchet (make mutation's exit code), not the report, so a Gitea artifact-backend
# 500 must not fail the job (gitea-actions-gotchas.md §4). Glob handles Stryker's
# non-deterministic StrykerOutput/<timestamp>/ dir. Pinned @v3: @v4's bundled
# @actions/artifact hard-aborts on non-github.com (GHES guard) — see the runbook.
- uses: https://github.com/actions/upload-artifact@v3
if: always()
continue-on-error: true
with:
name: acl-mutation-report
path: services/acl/StrykerOutput/**/reports/mutation-report.html
if-no-files-found: warn
- uses: https://github.com/actions/upload-artifact@v3
if: always()
continue-on-error: true
with:
name: event-subscriber-mutation-report
path: services/event-subscriber/StrykerOutput/**/reports/mutation-report.html
if-no-files-found: warn
- uses: https://github.com/actions/upload-artifact@v3
if: always()
continue-on-error: true
with:
name: domain-mutation-report
path: services/domain/StrykerOutput/**/reports/mutation-report.html
if-no-files-found: warn
- uses: https://github.com/actions/upload-artifact@v3
if: always()
continue-on-error: true
with:
name: bff-mutation-report
path: services/bff/StrykerOutput/**/reports/mutation-report.html
if-no-files-found: warn
# One stage for every check that needs the live stack. On the single self-hosted
# runner jobs run sequentially, so booting OpenZaak once (instead of once per job)
# is the cheapest layout (issue #58). No setup-dotnet: the ACL test runs in a built
# image and everything reaches services by container IP. Needs Docker + egress
# (base images, nuget, selectielijst.openzaak.nl).
verify-stack:
runs-on: ubuntu-latest
steps:
- uses: https://github.com/actions/checkout@v4
# Bring the full stack up + wait for health — this also is the DoD "compose up
# reaches green health" smoke (it replaces the old compose-smoke job).
- name: Bring up the full stack & wait for health
run: make verify-up
- name: ACL ↔ OpenZaak integration tests
run: make verify-acl
- name: OpenZaak → NRC notification delivery
run: make verify-nrc
- name: OpenZaak → NRC → Event Subscriber → projection-api
run: make verify-projection
- name: Domain → Flowable → ACL → OpenZaak
run: make verify-domain
- name: BFF → Keycloak + domain + projection
run: make verify-bff
- name: Self-service e2e (Playwright, login → submit → success)
run: make verify-e2e
# Log dump must precede teardown (which removes the containers).
- name: Dump container logs on failure
if: failure()
run: docker compose -f infra/docker-compose.yml logs --no-color --tail=100 oz-init openzaak nrc-init nrc-web nrc-celery nrc-beat flowable-db flowable-rest flowable-init keycloak acl bff domain projection-db event-subscriber projection-api self-service 2>&1 || true
- name: Tear down
if: always()
run: make down

28
.gitignore vendored
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@@ -5,9 +5,6 @@ obj/
[Rr]elease/ [Rr]elease/
*.user *.user
# Reqnroll-generated test code (regenerated from *.feature on build)
*.feature.cs
# Test results / coverage # Test results / coverage
[Tt]est[Rr]esults/ [Tt]est[Rr]esults/
*.trx *.trx
@@ -15,9 +12,6 @@ coverage*.json
coverage*.xml coverage*.xml
*.coverage *.coverage
# Stryker.NET mutation-testing reports (regenerated by `make mutation`)
StrykerOutput/
# Rider / VS / VS Code # Rider / VS / VS Code
.idea/ .idea/
.vs/ .vs/
@@ -35,25 +29,3 @@ site/
# OS # OS
.DS_Store .DS_Store
Thumbs.db Thumbs.db
# ── Frontend (Nx / Angular / pnpm) ──
node_modules/
dist/
tmp/
out-tsc/
/coverage
.angular/
.nx/cache
.nx/workspace-data
.nx/self-healing
.nx/migrate-runs
.nx/polygraph
vite.config.*.timestamp*
vitest.config.*.timestamp*
.angular
# Playwright e2e (installed/generated in-container or on local runs)
tests/e2e/node_modules/
tests/e2e/test-results/
tests/e2e/playwright-report/

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@@ -1,8 +0,0 @@
# Add files here to ignore them from prettier formatting
/dist
/coverage
/.nx/cache
/.nx/workspace-data
.angular
.nx/self-healing

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@@ -1,3 +0,0 @@
{
"singleQuote": true
}

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@@ -151,47 +151,32 @@ The skeleton proves the spine end-to-end: a registration, a workflow, a zaak in
### S-08 · Self-Service portal (Angular, NL DS) — submit a registration ### S-08 · Self-Service portal (Angular, NL DS) — submit a registration
> **S-08 was split** (CLAUDE.md §13; issue #9 closed) into the sub-slices below — it bundled the **Outcome:** The self-service Angular app, in the Nx monorepo, lets a zorgprofessional log in via mock DigiD and submit a registration. NL Design System styling. Generated API client.
> Nx bootstrap, the generated client, the NL DS + DigiD form, and a full-stack Playwright e2e, well
> past 12 days. Each sub-slice is independently demoable and CI-green.
- **S-08a (#65)** · Nx monorepo + Angular tooling + CI Node lane. Placeholder `self-service` app; `nx lint/test/build` green in a new CI Node lane.
- **S-08b (#66)** · Generated api-client lib from `services/bff/openapi.json` (never hand-written, §10) + a mocked-BFF unit test.
- **S-08c (#67)** · Self-service submit form — NL Design System `libs/ui`, DigiD OIDC `libs/auth`, component tests (Angular Testing Library), axe WCAG 2.1 AA on the submit page.
- **S-08d (#68)** · Playwright happy-path e2e (login → submit → success) against the full stack + compose serving + CI e2e lane.
**Out of scope (whole of S-08):** document upload, status tracking page.
### S-09 · Openbaar Register portal — public lookup *(#10)*
**Outcome:** The openbaar Angular app shows a search box. Anonymous. Queries the BFF's `/openbaar/register` which reads only the projection's **public-safe** fields. Shows the public-visibility half of the walking skeleton.
_Split from the original S-09 — scoped to the portal only; the approval flow is **S-09b (#75)**._
**Acceptance:** **Acceptance:**
- E2E test: after a zorgprofessional registers via self-service (S-08), the openbaar register shows the entry (as `INGEDIEND`). - E2E test (Playwright): full happy path, login → submit → success page.
- Public-safe field whitelist enforced and tested (already in the BFF; add a portal component test + a11y check). - Component tests (Testing Library) for the form.
- Accessibility audit (axe-core) passes WCAG 2.1 AA on the submit page.
**Touches:** `apps/openbaar/`, compose serving, e2e, docs. **Touches:** `apps/self-service/`, `libs/ui/`, `libs/auth/`, `libs/api-client/`, tests.
**Out of scope:** approval/status transition (S-09b), advanced search filters, sorting. **Out of scope:** document upload, status tracking page.
### S-09b · Approval flow — temp admin endpoint + status transition to projection *(#75)* ### S-09 · Openbaar Register portal — public lookup
**Outcome:** A behandelaar approves a submitted registration via a temporary admin endpoint (no behandel-portal yet — S-12). The approval transitions the zaak status through the ACL → NRC → event-subscriber → projection, and the openbaar register then shows the entry as approved. **Outcome:** The openbaar Angular app shows a search box. Anonymous. Queries the BFF's `/openbaar/register` which reads only the projection's **public-safe** fields. Confirms the walking skeleton end-to-end.
**Acceptance:** **Acceptance:**
- A new terminal/approved status (e.g. `INGESCHREVEN`) exists and is projected. - E2E test: zorgprofessional registers via self-service (S-08), behandelaar approves via a temporary admin endpoint (no behandel-portal yet), openbaar register shows the entry.
- Temporary admin approve endpoint transitions a registration via a real ZGW status set (behind the ACL, §8). - Public-safe field whitelist enforced and tested.
- E2E: register (S-08) → approve → openbaar shows the entry as approved.
**Touches:** `services/domain`, `services/acl`, `services/event-subscriber`, `services/projection-api`, e2e. **Touches:** `apps/openbaar/`, projection-api hardening, tests.
**Out of scope:** behandel-portal UI (S-12), assessment logic (S-13), escalation (S-15). **Out of scope:** advanced search filters, sorting.
**End of walking skeleton** (S-09 + S-09b). Demo: submit → process → projection → public visibility. All CI gates green on Gitea Actions. Cut release `vYYYY.MM.0` and publish via Gitea Releases. **End of walking skeleton.** Demo: submit → process → projection → public visibility. All CI gates green on Gitea Actions. Cut release `vYYYY.MM.0` and publish via Gitea Releases.
--- ---

257
Makefile
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@@ -5,33 +5,9 @@
# `make ci` locally runs exactly what the pipeline runs — no drift. Until a # `make ci` locally runs exactly what the pipeline runs — no drift. Until a
# self-hosted runner is registered, `make ci` is the gate (see docs/runbooks/ci.md). # self-hosted runner is registered, `make ci` is the gate (see docs/runbooks/ci.md).
SLN := register-referentie.slnx SLN := services/bff/Bff.slnx
COMPOSE := infra/docker-compose.yml COMPOSE := infra/docker-compose.yml
# Long-running services with a healthcheck — the smoke polls these for readiness HEALTH_URL := http://localhost:8080/health
# (infra/wait-healthy.sh). One-shot init jobs (oz-init, nrc-init, flowable-init)
# are not polled; they only need to have run. See docs/runbooks/gitea-actions-gotchas.md.
WAIT_SVCS := openzaak nrc-web acl bff domain event-subscriber projection-api self-service openbaar
# Config files (OpenZaak data.yaml, Keycloak realms, Flowable BPMN) are streamed
# into external named volumes via `docker cp` (infra/seed-config.sh) instead of
# bind-mounted, because bind mounts don't reach sibling containers on the
# containerized CI runner. SEED populates them; run it before every `up`. The
# volumes are `external`, so compose won't remove them — CFG_VOLS lists them for
# explicit teardown. See docs/runbooks/gitea-actions-gotchas.md.
SEED := bash infra/seed-config.sh
CFG_VOLS := rr-oz-config rr-nrc-config rr-kc-realms rr-fl-bpmn
# Local-only stack: same services but config is bind-mounted (no seed step), so a
# plain `docker compose -f infra/docker-compose.local.yml up` works on any local
# engine. This is the no-make / Windows-friendly path. See that file's header.
LOCAL_COMPOSE := infra/docker-compose.local.yml
OZ_COMPOSE := infra/openzaak/docker-compose.yml
OZ_BASE := http://localhost:8000
NRC_COMPOSE := infra/opennotificaties/docker-compose.yml
NRC_BASE := http://localhost:8001
KC_COMPOSE := infra/keycloak/docker-compose.yml
KC_BASE := http://localhost:8180
FL_COMPOSE := infra/flowable/docker-compose.yml
FL_BASE := http://localhost:8090/flowable-rest/service
STACK_FILES := -f $(OZ_COMPOSE) -f $(NRC_COMPOSE)
# On a rootless Podman dev box, point Docker CLI/Compose at the Podman socket — # On a rootless Podman dev box, point Docker CLI/Compose at the Podman socket —
# but only if that socket exists and DOCKER_HOST isn't already set, so real # but only if that socket exists and DOCKER_HOST isn't already set, so real
@@ -43,23 +19,10 @@ export DOCKER_HOST := unix://$(PODMAN_SOCK)
endif endif
endif endif
.PHONY: ci lint build unit mutation frontend integration verify verify-up verify-acl verify-nrc verify-projection verify-bff verify-domain verify-notifications smoke up down local local-down changelog openzaak-up openzaak-smoke openzaak-seed openzaak-down stack-up stack-smoke stack-down keycloak-up keycloak-smoke keycloak-down flowable-up flowable-smoke flowable-down help .PHONY: ci lint build unit smoke down changelog help
## ci: run the full pipeline — lint, build, unit, mutation, frontend, verify (mirrors Gitea Actions) ## ci: run the full pipeline — lint, build, unit, smoke (mirrors Gitea Actions)
## `verify` is the live-stack stage (full stack up once → ACL + notification checks). ci: lint build unit smoke
ci: lint build unit mutation frontend verify
## frontend: install deps and run the Nx lint/test/build for the portals (pnpm + Node required)
# Tests run in their own phase, ahead of the build. The @angular/build:unit-test
# (Vitest) runner spawns a worker with a hard-coded 60s/90s startup timeout that is
# not configurable. When the ~5min production build shares the run-many pool, it
# starves that worker of CPU on constrained CI runners and Vitest fails with
# "Timeout waiting for worker to respond". Splitting the phases keeps tests off the
# heavy build's back so the worker starts well inside its window.
frontend:
pnpm install --frozen-lockfile
pnpm nx run-many -t lint test
pnpm nx run-many -t build
## lint: verify formatting (no changes) ## lint: verify formatting (no changes)
lint: lint:
@@ -69,221 +32,23 @@ lint:
build: build:
dotnet build $(SLN) -c Release dotnet build $(SLN) -c Release
## unit: run unit tests (excludes the container-backed Integration lane) ## unit: run unit tests
unit: unit:
dotnet test $(SLN) -c Release --filter "Category!=Integration" dotnet test $(SLN) -c Release
## mutation: run the Stryker.NET ratchet on each service with branching logic (fails below baseline) ## smoke: compose up (wait for healthy), curl /health, then tear down
# Stryker is pinned as a local dotnet tool (.config/dotnet-tools.json); `tool restore`
# makes `make mutation` work from a fresh clone. Each service owns its config + break
# threshold (the ratchet, CLAUDE.md §5): each services/<svc>/stryker-config.json.
# Scores never regress below baseline.
mutation:
dotnet tool restore
cd services/acl && dotnet stryker
cd services/event-subscriber && dotnet stryker
cd services/domain && dotnet stryker
cd services/bff && dotnet stryker
## smoke: seed config, bring the whole stack up, wait for health-checked services, tear down
# SEED populates the external config volumes first (upstream images used verbatim;
# only our acl/bff are built). `up -d --build` starts EVERYTHING. Readiness is
# checked by infra/wait-healthy.sh polling the durable, health-checked services
# ($(WAIT_SVCS)) via `docker inspect` — portable across docker compose and
# podman-compose, and needing no `--wait` flag or host port access. The one-shots
# (oz-init, flowable-init) aren't polled; they just need to have run.
smoke: smoke:
$(SEED) oz nrc kc fl docker compose -f $(COMPOSE) up -d --build --wait
docker compose -f $(COMPOSE) up -d --build bash -c 'curl -fsS $(HEALTH_URL); rc=$$?; docker compose -f $(COMPOSE) down --volumes; exit $$rc'
bash -c 'WAIT_TIMEOUT=420 bash infra/wait-healthy.sh $(WAIT_SVCS); rc=$$?; docker compose -f $(COMPOSE) down --volumes; docker volume rm -f $(CFG_VOLS) >/dev/null 2>&1; exit $$rc'
## up: seed config volumes and start the full stack (use instead of bare ## down: stop and remove the local stack
## `docker compose up`, which can't self-seed the external config volumes)
up:
$(SEED) oz nrc kc fl
docker compose -f $(COMPOSE) up -d --build
## down: stop and remove the local stack (incl. the external config volumes)
down: down:
docker compose -f $(COMPOSE) down --volumes docker compose -f $(COMPOSE) down --volumes
-docker volume rm -f $(CFG_VOLS)
## local: bring up the bind-mount stack (no seed step) and wait for health
## (Windows / no-make users: run `docker compose -f infra/docker-compose.local.yml up -d --build` directly)
local:
docker compose -f $(LOCAL_COMPOSE) up -d --build
WAIT_TIMEOUT=420 bash infra/wait-healthy.sh $(WAIT_SVCS)
## local-down: stop and remove the bind-mount stack
local-down:
docker compose -f $(LOCAL_COMPOSE) down --volumes
## changelog: regenerate CHANGELOG.md from Conventional Commits (git-cliff) ## changelog: regenerate CHANGELOG.md from Conventional Commits (git-cliff)
changelog: changelog:
git-cliff --output CHANGELOG.md git-cliff --output CHANGELOG.md
# ── ZGW verification ───────────────────────────────────────────────────────
# On the single runner CI jobs run sequentially, so the OpenZaak-dependent checks
# share ONE full-stack bring-up: the `verify-stack` CI job runs `verify-up` then
# `verify-acl` + `verify-nrc` as steps against the same stack (issue #58). The
# check logic lives in stack-agnostic runners that reach services by container IP
# (gitea-actions-gotchas.md §5/§6); `integration` / `verify-notifications` are local
# convenience wrappers that bring up a lighter stack and call the same runners.
## verify-up: bring the FULL stack up and wait for health (CI verify-stack step 1;
## subsumes the old compose-smoke health gate — the DoD "up reaches green" check).
verify-up:
$(SEED) oz nrc kc fl
docker compose -f $(COMPOSE) up -d --build
WAIT_TIMEOUT=420 bash infra/wait-healthy.sh $(WAIT_SVCS)
## verify-acl: ACL ↔ OpenZaak integration tests against the already-running stack.
verify-acl:
bash infra/run-acl-integration.sh
## verify-nrc: OpenZaak → NRC notification delivery against the already-running stack.
verify-nrc:
bash infra/run-notification-check.sh
## verify-projection: OpenZaak → NRC → Event Subscriber → projection-api end-to-end (S-06),
## against the already-running stack.
verify-projection:
bash infra/run-projection-check.sh
## verify-domain: domain → Flowable → ACL → OpenZaak end-to-end (S-05), against the
## already-running stack. Recreates the acl service to inject the seeded zaaktype URL.
verify-domain:
bash infra/run-domain-check.sh
## verify-bff: BFF end-to-end (S-07) against the up stack — token validation on self-service
## + anonymous public-safe openbaar register (ADR-0010).
verify-bff:
bash infra/run-bff-check.sh
## verify-e2e: walking-skeleton Playwright e2e (S-08d) against the up stack — DigiD login →
## submit → confirmation, driven inside the compose network.
verify-e2e:
bash infra/run-e2e-check.sh
## verify: local mirror of the CI verify-stack job — full stack up once, all checks,
## tear down (always). For fast single-concern local iteration use `integration`
## (oz-only) or `verify-notifications` (oz+nrc) instead.
verify:
$(SEED) oz nrc kc fl
docker compose -f $(COMPOSE) up -d --build
@bash -c 'set -e; rc=0; \
WAIT_TIMEOUT=420 bash infra/wait-healthy.sh $(WAIT_SVCS) \
&& bash infra/run-acl-integration.sh \
&& bash infra/run-notification-check.sh \
&& bash infra/run-projection-check.sh \
&& bash infra/run-domain-check.sh \
&& bash infra/run-bff-check.sh \
&& bash infra/run-e2e-check.sh || rc=$$?; \
docker compose -f $(COMPOSE) down --volumes >/dev/null 2>&1; \
docker volume rm -f $(CFG_VOLS) >/dev/null 2>&1; \
exit $$rc'
## integration: local convenience — ACL integration test against a throwaway
## OpenZaak-only stack (fast iteration). CI uses verify-acl on the shared stack.
integration:
bash infra/run-integration.sh
## openzaak-up: start the OpenZaak stack (migrations run on first start)
openzaak-up:
$(SEED) oz
docker compose -f $(OZ_COMPOSE) up -d
## openzaak-smoke: start OpenZaak, then assert it is up with auth enforced
openzaak-smoke: openzaak-up
@bash -c 'set -e; \
echo "waiting for OpenZaak to respond..."; \
for i in $$(seq 1 60); do \
code=$$(curl -s -o /dev/null -w "%{http_code}" $(OZ_BASE)/zaken/api/v1/zaken || true); \
[ -n "$$code" ] && [ "$$code" != "000" ] && break; sleep 3; \
done; \
echo "GET /zaken/api/v1/zaken (unauth) -> $$code (expect 403, auth enforced)"; test "$$code" = "403"; \
admin=$$(curl -s -o /dev/null -w "%{http_code}" $(OZ_BASE)/admin/); \
echo "GET /admin/ -> $$admin (expect 302)"; test "$$admin" = "302"; \
root=$$(curl -s -o /dev/null -w "%{http_code}" $(OZ_BASE)/zaken/api/v1/); \
echo "GET /zaken/api/v1/ -> $$root (expect 200)"; test "$$root" = "200"; \
echo "OpenZaak smoke OK"'
## openzaak-seed: bring OpenZaak up and seed the BIG catalogus (idempotent)
openzaak-seed: openzaak-up
@bash -c 'for i in $$(seq 1 50); do \
c=$$(curl -s -o /dev/null -w "%{http_code}" $(OZ_BASE)/catalogi/api/v1/ || true); \
[ "$$c" = "200" ] && break; sleep 3; done; echo "OpenZaak ready ($$c)"'
python3 infra/openzaak/seed_catalogus.py
## openzaak-down: stop and remove the OpenZaak stack (wipes data)
openzaak-down:
docker compose -f $(OZ_COMPOSE) down --volumes
-docker volume rm -f rr-oz-config
## verify-notifications: local convenience — OpenZaak → NRC notification delivery
## against a throwaway oz+nrc stack (S-01-c). CI uses verify-nrc on the shared stack.
verify-notifications:
bash infra/verify-notifications.sh
## stack-up: start OpenZaak + Open Notificaties together (shared network), with
## OpenZaak publishing notifications to NRC (S-01-c).
stack-up:
$(SEED) oz nrc
OZ_NOTIFICATIONS_DISABLED=false docker compose $(STACK_FILES) up -d
## stack-smoke: start both, assert OpenZaak (403/302/200) and NRC (302) are reachable
stack-smoke: stack-up
@bash -c 'set -e; \
echo "waiting for OpenZaak + Open Notificaties..."; \
for i in $$(seq 1 60); do \
oz=$$(curl -s -o /dev/null -w "%{http_code}" $(OZ_BASE)/admin/ || true); \
nrc=$$(curl -s -o /dev/null -w "%{http_code}" $(NRC_BASE)/admin/ || true); \
[ "$$oz" = "302" ] && [ "$$nrc" = "302" ] && break; sleep 3; done; \
z=$$(curl -s -o /dev/null -w "%{http_code}" $(OZ_BASE)/zaken/api/v1/zaken); \
echo "OpenZaak /zaken (unauth) -> $$z (expect 403)"; test "$$z" = "403"; \
echo "OpenZaak /admin/ -> $$oz (expect 302)"; test "$$oz" = "302"; \
echo "Open Notificaties /admin/-> $$nrc (expect 302)"; test "$$nrc" = "302"; \
echo "stack smoke OK"'
## stack-down: stop and remove both stacks (wipes data)
stack-down:
docker compose $(STACK_FILES) down --volumes
-docker volume rm -f rr-oz-config rr-nrc-config
## keycloak-up: start Keycloak with the four imported realms
keycloak-up:
$(SEED) kc
docker compose -f $(KC_COMPOSE) up -d
## keycloak-smoke: start Keycloak, then verify each realm logs in + returns its claim
keycloak-smoke: keycloak-up
@bash -c 'for i in $$(seq 1 60); do \
c=$$(curl -s -o /dev/null -w "%{http_code}" $(KC_BASE)/realms/digid/.well-known/openid-configuration || true); \
[ "$$c" = "200" ] && break; sleep 3; done; echo "Keycloak ready ($$c)"'
python3 infra/keycloak/check_realms.py
## keycloak-down: stop and remove Keycloak
keycloak-down:
docker compose -f $(KC_COMPOSE) down --volumes
-docker volume rm -f rr-kc-realms
## flowable-up: start Flowable (deploys registratie.bpmn on boot)
flowable-up:
$(SEED) fl
docker compose -f $(FL_COMPOSE) up -d
## flowable-smoke: start Flowable, then verify a started instance waits on the external task
flowable-smoke: flowable-up
@bash -c 'for i in $$(seq 1 80); do \
c=$$(curl -s -o /dev/null -w "%{http_code}" -u rest-admin:test $(FL_BASE)/repository/process-definitions?key=registratie || true); \
[ "$$c" = "200" ] && break; sleep 3; done; echo "Flowable ready ($$c)"'
python3 infra/flowable/verify.py
## flowable-down: stop and remove Flowable
flowable-down:
docker compose -f $(FL_COMPOSE) down --volumes
-docker volume rm -f rr-fl-bpmn
## help: list available targets ## help: list available targets
help: help:
@grep -E '^## ' $(MAKEFILE_LIST) | sed 's/^## //' @grep -E '^## ' $(MAKEFILE_LIST) | sed 's/^## //'

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# Multi-stage build for the openbaar portal (Angular → nginx).
# Build context is the repo root (the app needs the pnpm workspace + libs). See infra/docker-compose.yml.
FROM node:24-slim AS build
WORKDIR /src
RUN corepack enable && corepack prepare pnpm@11.5.2 --activate
# Restore first (cached unless the manifests change).
COPY package.json pnpm-lock.yaml pnpm-workspace.yaml nx.json tsconfig.base.json eslint.config.mjs ./
RUN pnpm install --frozen-lockfile
# Sources (only what the app + its libs need).
COPY apps/openbaar apps/openbaar
COPY libs libs
RUN pnpm nx build openbaar
FROM nginx:1.27-alpine AS runtime
COPY apps/openbaar/nginx.conf /etc/nginx/conf.d/default.conf
COPY --from=build /src/dist/apps/openbaar/browser /usr/share/nginx/html
# No runtime config: the openbaar register is anonymous (no OIDC authority to inject).
EXPOSE 80

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import nx from '@nx/eslint-plugin';
import baseConfig from '../../eslint.config.mjs';
export default [
...nx.configs['flat/angular'],
...nx.configs['flat/angular-template'],
...baseConfig,
{
files: ['**/*.ts'],
rules: {
'@angular-eslint/directive-selector': [
'error',
{
type: 'attribute',
prefix: 'app',
style: 'camelCase',
},
],
'@angular-eslint/component-selector': [
'error',
{
type: 'element',
prefix: 'app',
style: 'kebab-case',
},
],
},
},
{
files: ['**/*.html'],
// Override or add rules here
rules: {},
},
];

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server {
listen 80;
server_name _;
root /usr/share/nginx/html;
index index.html;
# Resolve the BFF via Docker's embedded DNS at request time (variable proxy_pass), so nginx starts
# even before the BFF is up and picks up restarts — instead of failing to load the config.
resolver 127.0.0.11 ipv6=off valid=30s;
# Same-origin API: proxy the anonymous openbaar endpoint group to the bff service. The api-client
# uses relative URLs, so the browser calls this origin and nginx forwards to the BFF — no CORS.
location /openbaar/ {
set $bff http://bff:8080;
proxy_pass $bff;
proxy_set_header Host $host;
}
# SPA fallback — Angular client-side routing.
location / {
try_files $uri $uri/ /index.html;
}
}

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{
"name": "openbaar",
"$schema": "../../node_modules/nx/schemas/project-schema.json",
"projectType": "application",
"prefix": "app",
"sourceRoot": "apps/openbaar/src",
"tags": [],
"targets": {
"build": {
"executor": "@angular/build:application",
"outputs": ["{options.outputPath}"],
"defaultConfiguration": "production",
"options": {
"outputPath": "dist/apps/openbaar",
"browser": "apps/openbaar/src/main.ts",
"tsConfig": "apps/openbaar/tsconfig.app.json",
"assets": [
{
"glob": "**/*",
"input": "apps/openbaar/public"
}
],
"styles": ["apps/openbaar/src/styles.css"]
},
"configurations": {
"production": {
"budgets": [
{
"type": "initial",
"maximumWarning": "1mb",
"maximumError": "2mb"
},
{
"type": "anyComponentStyle",
"maximumWarning": "4kb",
"maximumError": "8kb"
}
],
"outputHashing": "all"
},
"development": {
"optimization": false,
"extractLicenses": false,
"sourceMap": true
}
}
},
"serve": {
"continuous": true,
"executor": "@angular/build:dev-server",
"defaultConfiguration": "development",
"configurations": {
"production": {
"buildTarget": "openbaar:build:production"
},
"development": {
"buildTarget": "openbaar:build:development"
}
}
},
"lint": {
"executor": "@nx/eslint:lint"
},
"test": {
"executor": "@angular/build:unit-test",
"options": {
"watch": false
}
},
"serve-static": {
"continuous": true,
"executor": "@nx/web:file-server",
"options": {
"buildTarget": "openbaar:build",
"staticFilePath": "dist/apps/openbaar/browser",
"spa": true
}
}
}
}

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import { provideHttpClient } from '@angular/common/http';
import {
ApplicationConfig,
provideBrowserGlobalErrorListeners,
} from '@angular/core';
import { provideRouter } from '@angular/router';
import { appRoutes } from './app.routes';
/**
* The openbaar register is a public, anonymous read: no DigiD, no auth interceptor. The app is served
* same-origin as the BFF (nginx proxies /openbaar), so the api-client's relative calls stay same-origin.
*/
export const appConfig: ApplicationConfig = {
providers: [
provideBrowserGlobalErrorListeners(),
provideRouter(appRoutes),
provideHttpClient(),
],
};

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<router-outlet></router-outlet>

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import { Route } from '@angular/router';
import { RegisterPage } from './register/register-page';
export const appRoutes: Route[] = [{ path: '', component: RegisterPage }];

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import { provideRouter } from '@angular/router';
import { render } from '@testing-library/angular';
import { App } from './app';
describe('App', () => {
it('renders the router outlet shell', async () => {
const { container } = await render(App, {
providers: [provideRouter([])],
});
// The shell is a thin host for routed pages (the RegisterPage owns the heading).
expect(container.querySelector('router-outlet')).toBeTruthy();
});
});

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import { Component } from '@angular/core';
import { RouterModule } from '@angular/router';
@Component({
imports: [RouterModule],
selector: 'app-root',
templateUrl: './app.html',
styleUrl: './app.css',
})
export class App {
protected title = 'openbaar';
}

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<main utrecht-document class="utrecht-theme">
<utrecht-article>
<utrecht-heading-1>Openbaar BIG-register</utrecht-heading-1>
<p utrecht-paragraph>
Zoek in het openbare register van BIG-registraties. Alleen publieke gegevens worden getoond.
</p>
<div role="search">
<label for="register-search" utrecht-form-label>Zoek op referentie</label>
<input
id="register-search"
type="search"
utrecht-textbox
[ngModel]="query()"
(ngModelChange)="query.set($event)"
[ngModelOptions]="{ standalone: true }"
(keyup.enter)="search()"
/>
<button
utrecht-button
appearance="primary-action-button"
type="button"
[disabled]="loading()"
(click)="search()"
>
Zoeken
</button>
</div>
@if (loading()) {
<p utrecht-paragraph role="status">Bezig met laden…</p>
} @else if (searched() && entries().length === 0) {
<p utrecht-paragraph role="status">Geen inschrijvingen gevonden.</p>
} @else if (entries().length > 0) {
<table utrecht-table>
<caption>Inschrijvingen in het openbaar register</caption>
<thead>
<tr>
<th scope="col">Referentie</th>
<th scope="col">Status</th>
</tr>
</thead>
<tbody>
@for (entry of entries(); track entry.id) {
<tr>
<td>{{ entry.id }}</td>
<td>{{ entry.status }}</td>
</tr>
}
</tbody>
</table>
}
</utrecht-article>
</main>

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@@ -1,57 +0,0 @@
import { fireEvent, render, screen } from '@testing-library/angular';
import { of } from 'rxjs';
import { BffApiV1Service, type OpenbaarEntry } from 'api-client';
import { axe } from 'vitest-axe';
import { RegisterPage } from './register-page';
const sample: OpenbaarEntry[] = [
{ id: 'zaak-abc', status: 'INGEDIEND' },
{ id: 'zaak-def', status: 'INGESCHREVEN' },
];
function providers(get = vi.fn().mockReturnValue(of(sample))) {
return {
get,
providers: [{ provide: BffApiV1Service, useValue: { getOpenbaarRegister: get } }],
};
}
describe('RegisterPage', () => {
it('lists the public register entries from the BFF on open', async () => {
const { get } = providers();
await render(RegisterPage, { providers: providers(get).providers });
expect(get).toHaveBeenCalled();
expect(await screen.findByText(/zaak-abc/)).toBeTruthy();
expect(screen.getByText(/INGEDIEND/)).toBeTruthy();
expect(screen.getByText(/zaak-def/)).toBeTruthy();
});
it('searches by the entered term', async () => {
const get = vi.fn().mockReturnValue(of(sample));
await render(RegisterPage, { providers: providers(get).providers });
fireEvent.input(screen.getByRole('searchbox'), { target: { value: 'zaak-abc' } });
fireEvent.click(screen.getByRole('button', { name: /zoek/i }));
expect(get).toHaveBeenLastCalledWith({ q: 'zaak-abc' });
});
it('shows an empty-state message when the register has no matches', async () => {
const get = vi.fn().mockReturnValue(of([] as OpenbaarEntry[]));
await render(RegisterPage, { providers: providers(get).providers });
expect(await screen.findByText(/geen inschrijvingen gevonden/i)).toBeTruthy();
});
it('has no WCAG 2.1 AA violations', async () => {
document.documentElement.lang = 'nl';
const { container } = await render(RegisterPage, { providers: providers().providers });
const results = await axe(container, {
runOnly: { type: 'tag', values: ['wcag2a', 'wcag2aa', 'wcag21a', 'wcag21aa'] },
});
expect(results.violations).toEqual([]);
});
});

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import { Component, inject, signal } from '@angular/core';
import { FormsModule } from '@angular/forms';
import { BffApiV1Service, type OpenbaarEntry } from 'api-client';
import { UtrechtComponentsModule } from 'ui';
/**
* The openbaar (public) BIG-register: an anonymous search over the read projection's public-safe
* view (id + status only — bsn/naam never leave the BFF; ADR-0010). Loads the full register on open
* and filters by the search term via the BFF's `/openbaar/register?q=` endpoint (S-09).
*/
@Component({
selector: 'app-register-page',
imports: [FormsModule, UtrechtComponentsModule],
templateUrl: './register-page.html',
})
export class RegisterPage {
private readonly bff = inject(BffApiV1Service);
protected readonly query = signal('');
protected readonly entries = signal<OpenbaarEntry[]>([]);
protected readonly loading = signal(false);
protected readonly searched = signal(false);
constructor() {
// Show the full register on open; the search box narrows it.
this.search();
}
search(): void {
const q = this.query().trim();
this.loading.set(true);
this.bff.getOpenbaarRegister(q ? { q } : {}).subscribe({
next: (rows: OpenbaarEntry[]) => {
this.entries.set(rows);
this.loading.set(false);
this.searched.set(true);
},
error: () => {
this.entries.set([]);
this.loading.set(false);
this.searched.set(true);
},
});
}
}

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<!doctype html>
<html lang="nl">
<head>
<meta charset="utf-8" />
<title>Openbaar BIG-register</title>
<base href="/" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<link rel="icon" type="image/x-icon" href="favicon.ico" />
</head>
<body>
<app-root></app-root>
</body>
</html>

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import { bootstrapApplication } from '@angular/platform-browser';
import { App } from './app/app';
import { appConfig } from './app/app.config';
// The openbaar register is anonymous (no DigiD, no runtime config) — bootstrap directly.
bootstrapApplication(App, appConfig).catch((err) => console.error(err));

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/* NL Design System theme — Utrecht design tokens (docs/frontend-decisions.md). */
@import '@utrecht/design-tokens/dist/index.css';

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{
"extends": "./tsconfig.json",
"compilerOptions": {
"outDir": "../../dist/out-tsc",
"types": []
},
"include": ["src/**/*.ts"],
"exclude": ["src/**/*.spec.ts", "src/**/*.test.ts"]
}

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{
"extends": "../../tsconfig.base.json",
"compilerOptions": {
"strict": true,
"noImplicitOverride": true,
"noPropertyAccessFromIndexSignature": true,
"noImplicitReturns": true,
"noFallthroughCasesInSwitch": true,
"isolatedModules": true,
"target": "es2022",
"moduleResolution": "bundler",
"emitDecoratorMetadata": false,
"module": "preserve"
},
"angularCompilerOptions": {
"enableI18nLegacyMessageIdFormat": false,
"strictInjectionParameters": true,
"strictInputAccessModifiers": true,
"strictTemplates": true
},
"files": [],
"include": [],
"references": [
{
"path": "./tsconfig.app.json"
},
{
"path": "./tsconfig.spec.json"
}
]
}

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{
"extends": "./tsconfig.json",
"compilerOptions": {
"outDir": "../../dist/out-tsc",
"types": ["vitest/globals"]
},
"include": ["src/**/*.ts", "src/**/*.d.ts"]
}

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# Multi-stage build for the self-service portal (Angular → nginx).
# Build context is the repo root (the app needs the pnpm workspace + libs). See infra/docker-compose.yml.
FROM node:24-slim AS build
WORKDIR /src
RUN corepack enable && corepack prepare pnpm@11.5.2 --activate
# Restore first (cached unless the manifests change).
COPY package.json pnpm-lock.yaml pnpm-workspace.yaml nx.json tsconfig.base.json eslint.config.mjs ./
RUN pnpm install --frozen-lockfile
# Sources (only what the app + its libs need).
COPY apps/self-service apps/self-service
COPY libs libs
RUN pnpm nx build self-service
FROM nginx:1.27-alpine AS runtime
COPY apps/self-service/nginx.conf /etc/nginx/conf.d/default.conf
COPY --from=build /src/dist/apps/self-service/browser /usr/share/nginx/html
# Compose-time OIDC config: the browser (Playwright, on the compose network) reaches Keycloak by
# service name, so the token issuer matches the BFF's authority (host-consistent, ADR-0010).
RUN printf '{ "authority": "http://keycloak:8080/realms/digid" }\n' > /usr/share/nginx/html/config.json
EXPOSE 80

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import nx from '@nx/eslint-plugin';
import baseConfig from '../../eslint.config.mjs';
export default [
...nx.configs['flat/angular'],
...nx.configs['flat/angular-template'],
...baseConfig,
{
files: ['**/*.ts'],
rules: {
'@angular-eslint/directive-selector': [
'error',
{
type: 'attribute',
prefix: 'app',
style: 'camelCase',
},
],
'@angular-eslint/component-selector': [
'error',
{
type: 'element',
prefix: 'app',
style: 'kebab-case',
},
],
},
},
{
files: ['**/*.html'],
// Override or add rules here
rules: {},
},
];

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server {
listen 80;
server_name _;
root /usr/share/nginx/html;
index index.html;
# Resolve the BFF via Docker's embedded DNS at request time (variable proxy_pass), so nginx starts
# even before the BFF is up and picks up restarts — instead of failing to load the config.
resolver 127.0.0.11 ipv6=off valid=30s;
# Same-origin API: proxy the BFF endpoint groups to the bff service. The api-client uses relative
# URLs, so the browser calls this origin and nginx forwards to the BFF — no CORS, and the DigiD
# token (same-origin) is attached by the app's interceptor (S-08d/ADR-0010).
location /self-service/ {
set $bff http://bff:8080;
proxy_pass $bff;
proxy_set_header Host $host;
}
location /openbaar/ {
set $bff http://bff:8080;
proxy_pass $bff;
proxy_set_header Host $host;
}
# SPA fallback — Angular client-side routing.
location / {
try_files $uri $uri/ /index.html;
}
}

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{
"name": "self-service",
"$schema": "../../node_modules/nx/schemas/project-schema.json",
"projectType": "application",
"prefix": "app",
"sourceRoot": "apps/self-service/src",
"tags": [],
"targets": {
"build": {
"executor": "@angular/build:application",
"outputs": ["{options.outputPath}"],
"defaultConfiguration": "production",
"options": {
"outputPath": "dist/apps/self-service",
"browser": "apps/self-service/src/main.ts",
"tsConfig": "apps/self-service/tsconfig.app.json",
"assets": [
{
"glob": "**/*",
"input": "apps/self-service/public"
}
],
"styles": ["apps/self-service/src/styles.css"]
},
"configurations": {
"production": {
"budgets": [
{
"type": "initial",
"maximumWarning": "1mb",
"maximumError": "2mb"
},
{
"type": "anyComponentStyle",
"maximumWarning": "4kb",
"maximumError": "8kb"
}
],
"outputHashing": "all"
},
"development": {
"optimization": false,
"extractLicenses": false,
"sourceMap": true
}
}
},
"serve": {
"continuous": true,
"executor": "@angular/build:dev-server",
"defaultConfiguration": "development",
"configurations": {
"production": {
"buildTarget": "self-service:build:production"
},
"development": {
"buildTarget": "self-service:build:development"
}
}
},
"lint": {
"executor": "@nx/eslint:lint"
},
"test": {
"executor": "@angular/build:unit-test",
"options": {
"watch": false
}
},
"serve-static": {
"continuous": true,
"executor": "@nx/web:file-server",
"options": {
"buildTarget": "self-service:build",
"staticFilePath": "dist/apps/self-service/browser",
"spa": true
}
}
}
}

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{
"authority": "http://localhost:8180/realms/digid"
}

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import { provideHttpClient, withInterceptors } from '@angular/common/http';
import { HttpTestingController, provideHttpClientTesting } from '@angular/common/http/testing';
import { TestBed } from '@angular/core/testing';
import { BffApiV1Service } from 'api-client';
import { authInterceptor } from 'auth';
import { AbstractSecurityStorage, ConfigurationService } from 'angular-auth-oidc-client';
import { SECURE_API_ROUTES } from './app.config';
// Guards the DigiD token wiring end-to-end. The api-client calls the BFF with RELATIVE URLs, and the
// angular-auth-oidc-client interceptor attaches the token only when `req.url` starts with a configured
// secureRoute. A regression to an absolute origin (as once shipped) makes the relative URL never match,
// so the submit goes out unauthenticated and fails silently. This drives the REAL interceptor and the
// REAL api-client against the REAL production route value (SECURE_API_ROUTES); only the config source
// and the token storage are faked, so the assertion turns on the actual route-matching.
describe('self-service DigiD token wiring', () => {
let http: HttpTestingController;
let bff: BffApiV1Service;
const token = 'digid-access-token';
beforeEach(() => {
TestBed.configureTestingModule({
providers: [
provideHttpClient(withInterceptors([authInterceptor()])),
provideHttpClientTesting(),
{
provide: ConfigurationService,
useValue: {
hasAtLeastOneConfig: () => true,
getAllConfigurations: () => [{ configId: 'digid', secureRoutes: SECURE_API_ROUTES }],
},
},
{
// A signed-in session: the storage the interceptor's token lookup reads from.
provide: AbstractSecurityStorage,
useValue: {
read: () => JSON.stringify({ authzData: token, authnResult: { id_token: 'id-token' } }),
write: () => undefined,
remove: () => undefined,
clear: () => undefined,
},
},
],
});
http = TestBed.inject(HttpTestingController);
bff = TestBed.inject(BffApiV1Service);
});
afterEach(() => http.verify());
it('attaches the bearer token to the relative self-service BFF call', () => {
bff.postSelfServiceRegistrations().subscribe();
const req = http.expectOne('/self-service/registrations');
expect(req.request.headers.get('Authorization')).toBe(`Bearer ${token}`);
req.flush({ registrationId: 'reg-1', status: 'Ingediend' });
});
it('leaves the anonymous openbaar register call unauthenticated', () => {
bff.getOpenbaarRegister().subscribe();
const req = http.expectOne((r) => r.url === '/openbaar/register');
expect(req.request.headers.has('Authorization')).toBe(false);
req.flush([]);
});
});

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@@ -1,42 +0,0 @@
import { provideHttpClient, withInterceptors } from '@angular/common/http';
import {
ApplicationConfig,
provideBrowserGlobalErrorListeners,
} from '@angular/core';
import { provideRouter } from '@angular/router';
import { authInterceptor, provideDigiadAuth } from 'auth';
import { appRoutes } from './app.routes';
/** Environment-specific settings fetched from /config.json at startup (see main.ts). */
export interface RuntimeConfig {
/** The Keycloak `digid` realm issuer as the browser reaches it (dev: localhost; compose: keycloak:8080). */
authority: string;
}
/**
* Route prefixes whose requests carry the DigiD token. These MUST match the **relative** URLs the
* api-client actually calls (same-origin via the nginx proxy) — the interceptor matches on `req.url`,
* which stays relative, so an absolute origin would never match and the token would go unattached.
* `/openbaar/` is deliberately excluded: it is the anonymous public register.
*/
export const SECURE_API_ROUTES = ['/self-service/'];
/**
* Build the app providers from runtime config. `redirectUrl` is the app's own origin (where Keycloak
* redirects back). `secureRoutes` uses {@link SECURE_API_ROUTES} — relative prefixes, not the origin.
*/
export function appConfig(runtime: RuntimeConfig): ApplicationConfig {
const origin = typeof window !== 'undefined' ? window.location.origin : '/';
return {
providers: [
provideBrowserGlobalErrorListeners(),
provideRouter(appRoutes),
provideHttpClient(withInterceptors([authInterceptor()])),
provideDigiadAuth({
authority: runtime.authority,
redirectUrl: origin,
secureRoutes: SECURE_API_ROUTES,
}),
],
};
}

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@@ -1 +0,0 @@
<router-outlet></router-outlet>

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@@ -1,7 +0,0 @@
import { Route } from '@angular/router';
import { authenticatedGuard } from 'auth';
import { RegistrationPage } from './registration/registration-page';
export const appRoutes: Route[] = [
{ path: '', component: RegistrationPage, canActivate: [authenticatedGuard] },
];

View File

@@ -1,15 +0,0 @@
import { provideRouter } from '@angular/router';
import { render, screen } from '@testing-library/angular';
import { App } from './app';
describe('App', () => {
it('renders the router outlet shell', async () => {
const { container } = await render(App, {
providers: [provideRouter([])],
});
// The shell is a thin host for routed pages (the RegistrationPage owns the heading).
expect(container.querySelector('router-outlet')).toBeTruthy();
expect(screen).toBeTruthy();
});
});

View File

@@ -1,12 +0,0 @@
import { Component } from '@angular/core';
import { RouterModule } from '@angular/router';
@Component({
imports: [RouterModule],
selector: 'app-root',
templateUrl: './app.html',
styleUrl: './app.css',
})
export class App {
protected title = 'self-service';
}

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@@ -1,27 +0,0 @@
<main utrecht-document class="utrecht-theme">
<utrecht-article>
<utrecht-heading-1>Zelfservice — BIG-registratie</utrecht-heading-1>
@if (submitted()) {
<p utrecht-paragraph role="status">
Uw registratie is ontvangen. Referentie: {{ reference() }}.
</p>
} @else {
<p utrecht-paragraph>U bent ingelogd met BSN {{ bsn() }}.</p>
@if (failed()) {
<p utrecht-paragraph role="alert">
Er ging iets mis bij het indienen van uw registratie. Probeer het opnieuw.
</p>
}
<button
utrecht-button
appearance="primary-action-button"
type="button"
[disabled]="submitting()"
(click)="submit()"
>
Registratie indienen
</button>
}
</utrecht-article>
</main>

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@@ -1,71 +0,0 @@
import { signal } from '@angular/core';
import { fireEvent, render, screen } from '@testing-library/angular';
import { of, throwError } from 'rxjs';
import { AuthService } from 'auth';
import { BffApiV1Service } from 'api-client';
import { axe } from 'vitest-axe';
import { RegistrationPage } from './registration-page';
class FakeAuth extends AuthService {
readonly isAuthenticated = signal(true);
readonly bsn = signal<string | undefined>('123456782');
login(): void {
/* noop */
}
logout(): void {
/* noop */
}
}
function providers(post = vi.fn().mockReturnValue(of({ registrationId: 'reg-9', status: 'Ingediend' }))) {
return {
post,
providers: [
{ provide: AuthService, useClass: FakeAuth },
{ provide: BffApiV1Service, useValue: { postSelfServiceRegistrations: post } },
],
};
}
describe('RegistrationPage', () => {
it('shows the signed-in BSN', async () => {
await render(RegistrationPage, { providers: providers().providers });
expect(screen.getByText(/123456782/)).toBeTruthy();
});
it('submits the registration and confirms', async () => {
const { post, providers: p } = providers();
await render(RegistrationPage, { providers: p });
fireEvent.click(screen.getByRole('button', { name: /indienen/i }));
expect(post).toHaveBeenCalledTimes(1);
expect(await screen.findByText(/ontvangen/i)).toBeTruthy();
});
it('shows an error and keeps the submit available when the BFF call fails', async () => {
const { post, providers: p } = providers(vi.fn().mockReturnValue(throwError(() => new Error('BFF rejected'))));
await render(RegistrationPage, { providers: p });
fireEvent.click(screen.getByRole('button', { name: /indienen/i }));
expect(post).toHaveBeenCalledTimes(1);
// The failure is surfaced (not swallowed), the confirmation is not shown, and the user can retry.
expect(await screen.findByRole('alert')).toBeTruthy();
expect(screen.queryByText(/ontvangen/i)).toBeNull();
expect(screen.getByRole('button', { name: /indienen/i })).toBeTruthy();
});
it('has no WCAG 2.1 AA violations on the submit page', async () => {
// The portal is Dutch; the real index.html sets lang. Set it here so the document-level
// html-has-lang rule reflects the app, not the bare jsdom document.
document.documentElement.lang = 'nl';
const { container } = await render(RegistrationPage, { providers: providers().providers });
const results = await axe(container, {
runOnly: { type: 'tag', values: ['wcag2a', 'wcag2aa', 'wcag21a', 'wcag21aa'] },
});
expect(results.violations).toEqual([]);
});
});

View File

@@ -1,42 +0,0 @@
import { Component, inject, signal } from '@angular/core';
import { BffApiV1Service, type SubmitAccepted } from 'api-client';
import { AuthService } from 'auth';
import { UtrechtComponentsModule } from 'ui';
/**
* The self-service submit page: a signed-in zorgprofessional confirms and submits their BIG
* registration. The bsn comes from the DigiD token (not a form field), so this is a confirm-and-
* submit flow that posts to the BFF and shows the returned reference (ADR-0010; S-08c).
*/
@Component({
selector: 'app-registration-page',
imports: [UtrechtComponentsModule],
templateUrl: './registration-page.html',
})
export class RegistrationPage {
private readonly auth = inject(AuthService);
private readonly bff = inject(BffApiV1Service);
protected readonly bsn = this.auth.bsn;
protected readonly submitting = signal(false);
protected readonly reference = signal<string | undefined>(undefined);
protected readonly submitted = signal(false);
protected readonly failed = signal(false);
submit(): void {
this.submitting.set(true);
this.failed.set(false);
this.bff.postSelfServiceRegistrations().subscribe({
next: (accepted: SubmitAccepted) => {
this.reference.set(accepted.registrationId);
this.submitted.set(true);
this.submitting.set(false);
},
// Surface the failure instead of swallowing it: re-enable the button so the user can retry.
error: () => {
this.failed.set(true);
this.submitting.set(false);
},
});
}
}

View File

@@ -1,13 +0,0 @@
<!doctype html>
<html lang="nl">
<head>
<meta charset="utf-8" />
<title>self-service</title>
<base href="/" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<link rel="icon" type="image/x-icon" href="favicon.ico" />
</head>
<body>
<app-root></app-root>
</body>
</html>

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@@ -1,10 +0,0 @@
import { bootstrapApplication } from '@angular/platform-browser';
import { App } from './app/app';
import { appConfig, type RuntimeConfig } from './app/app.config';
// Load environment config before bootstrap so the OIDC authority is set per environment
// (dev: localhost; compose: keycloak:8080) from a single build — 12-factor (S-08d).
fetch('config.json')
.then((response) => response.json() as Promise<RuntimeConfig>)
.then((config) => bootstrapApplication(App, appConfig(config)))
.catch((err) => console.error(err));

View File

@@ -1,2 +0,0 @@
/* NL Design System theme — Utrecht design tokens (docs/frontend-decisions.md). */
@import '@utrecht/design-tokens/dist/index.css';

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@@ -1,9 +0,0 @@
{
"extends": "./tsconfig.json",
"compilerOptions": {
"outDir": "../../dist/out-tsc",
"types": []
},
"include": ["src/**/*.ts"],
"exclude": ["src/**/*.spec.ts", "src/**/*.test.ts"]
}

View File

@@ -1,31 +0,0 @@
{
"extends": "../../tsconfig.base.json",
"compilerOptions": {
"strict": true,
"noImplicitOverride": true,
"noPropertyAccessFromIndexSignature": true,
"noImplicitReturns": true,
"noFallthroughCasesInSwitch": true,
"isolatedModules": true,
"target": "es2022",
"moduleResolution": "bundler",
"emitDecoratorMetadata": false,
"module": "preserve"
},
"angularCompilerOptions": {
"enableI18nLegacyMessageIdFormat": false,
"strictInjectionParameters": true,
"strictInputAccessModifiers": true,
"strictTemplates": true
},
"files": [],
"include": [],
"references": [
{
"path": "./tsconfig.app.json"
},
{
"path": "./tsconfig.spec.json"
}
]
}

View File

@@ -1,8 +0,0 @@
{
"extends": "./tsconfig.json",
"compilerOptions": {
"outDir": "../../dist/out-tsc",
"types": ["vitest/globals"]
},
"include": ["src/**/*.ts", "src/**/*.d.ts"]
}

View File

@@ -1,53 +0,0 @@
# ADR-0002: BIG catalogus design and OpenZaak seeding
- **Status:** Accepted
- **Date:** 2026-06-03
- **Deciders:** Respellion engineering
- **Relates to:** S-01 (#2)
## Context
S-01 needs a reproducible `BIG` catalogus in OpenZaak with a **lean** `BIG-registratie`
zaaktype (only schema-mandatory fields) plus a `bsn` eigenschap, and a JWT client that
can list zaaktypen. We had to decide *how* to provision this idempotently at startup.
Findings from the OpenZaak image (`openzaak/open-zaak:latest`):
- `setup_configuration` (run by the init container) is declarative and idempotent, with
steps for **JWT secrets** and **applicaties** (`vng_api_common_credentials`,
`vng_api_common_applicaties`) — but **no step for catalogi/zaaktypen**.
- Catalogus/zaaktype/eigenschap can only be created through the **ZTC REST API**.
- Publishing a zaaktype requires ≥1 roltype, ≥1 resultaattype and ≥2 statustypen.
## Decision
1. **Provision the JWT client declaratively** via `infra/openzaak/setup_configuration/data.yaml`:
a `JWTSecret` (`big-reference-seed` / dev secret) and an `Applicatie` with
`heeft_alle_autorisaties: true`. Idempotent, runs in the init container.
2. **Seed the catalogus/zaaktype/eigenschap via the ZTC API** with an idempotent,
stdlib-only script (`infra/openzaak/seed_catalogus.py`, `make openzaak-seed`). It mints
a ZGW JWT from the provisioned client and matches existing objects (by `domein` /
`identificatie` / `naam`, querying `status=alles` so concepts are seen) before creating.
3. **Keep the zaaktype a CONCEPT (not published).** Publishing pulls in roltypen,
statustypen and resultaattypen, which go beyond "schema-mandatory"; those arrive with
the workflow/zaak slices that actually need a published type. Listing uses `status=alles`.
4. **Disable outbound notifications** (`NOTIFICATIONS_DISABLED=true`) until Open Notificaties
(NRC) lands in S-01-c — otherwise every ZTC write 500s trying to notify.
5. **Fixed dev values:** RSIN `517439943` (elfproef-valid test value); the JWT secret is
dev-only and documented as such.
## Consequences
- **Reproducible & version-robust:** the API-driven seed doesn't depend on fixture PKs or
a catalogi `setup_configuration` step that may change between versions.
- **Teaches the pattern:** the seed talks to OpenZaak exactly the way the ACL will later —
through the documented ZGW API, with a JWT (ADR-0001).
- The seed is a script, but a **data loader is explicitly anticipated** (PRD §8); it lives
under `infra/openzaak/`, not as ad-hoc tooling.
- **Follow-ups:** re-enable notifications when NRC is up (S-01-c); publish the zaaktype (add
the related types) when a slice needs to create real zaken; pin the OpenZaak image tag.
## Alternatives considered
- **Fully declarative in `data.yaml`** — rejected: no catalogi/zaaktype step exists.
- **Django `loaddata` fixture** — rejected: brittle, tied to model PKs and the exact image
version; bypasses the API the rest of the system uses.

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@@ -1,44 +0,0 @@
# ADR-0003: ACL default-fill strategy
- **Status:** Accepted
- **Date:** 2026-06-04
- **Deciders:** Respellion engineering
- **Relates to:** S-04 (#5); builds on ADR-0001 (loose coupling)
## Context
The ACL is the only code that talks to ZGW APIs (ADR-0001 / CLAUDE.md §8.1). When the
domain asks it to "open a zaak", the domain payload is intentionally free of ZGW
specifics — it carries domain facts (e.g. the registrant's BSN), not OpenZaak fields. But
OpenZaak's `POST /zaken` requires ZGW-mandatory fields: `bronorganisatie`,
`verantwoordelijkeOrganisatie`, `startdatum`, `vertrouwelijkheidaanduiding`, and a
`zaaktype` URL. Something has to supply those, and it must not leak into the domain.
## Decision
**The ACL default-fills the ZGW-mandatory zaak fields; the domain never sees them.**
- `bronorganisatie`, `verantwoordelijkeOrganisatie`, `vertrouwelijkheidaanduiding`, and the
`zaaktype` URL come from **ACL configuration** (`AclDefaults` options) — not hardcoded,
not from the domain. This keeps them operationally manageable (the beheer portal will
edit them in S-15) and environment-specific (the seeded BIG zaaktype URL differs per env).
- `startdatum` is derived from an injected **clock** (today's date), so it is
deterministic in tests.
- The mapping from domain payload → ZGW `ZaakRequest` lives entirely inside the ACL
(`Application` builds the request from payload + defaults; `Infrastructure` serialises and
POSTs it). No other service constructs ZGW payloads or URLs.
## Consequences
- **Positive:** the domain stays ZGW-agnostic; ZGW knowledge is in one named place; defaults
are config (testable, env-specific, later editable via the beheer portal).
- **Cost:** the ACL must be configured per environment (the seeded zaaktype URL, the
organisation RSINs). Missing/invalid config fails fast at the ACL boundary.
- **Follow-ups:** mapping the BSN onto the zaak (eigenschap/rol), status transitions, and
documents are explicitly out of scope for S-04 and get their own slices.
## Alternatives considered
- **Defaults in the domain payload** — rejected: leaks ZGW concerns into the domain,
violating ADR-0001.
- **Hardcoded defaults in code** — rejected: not env-specific, not operationally editable.

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@@ -1,52 +0,0 @@
# ADR-0004: Reqnroll as the BDD acceptance framework
- **Status:** Accepted
- **Date:** 2026-06-04
- **Deciders:** Respellion engineering
- **Relates to:** S-04 (#5); supports CLAUDE.md §3 (BDD at the use-case level) and §11 (tests pyramid)
## Context
CLAUDE.md §11 mandates that each user-visible flow is driven by a Gherkin acceptance
scenario living in `tests/acceptance/`, and §3 names "BDD at the use-case level" as a core
engineering principle. The foundational slices (S-00…S-03) added no acceptance layer; S-04
is the first slice with real domain behaviour to drive, so it is where the BDD framework is
introduced. We need a .NET tool that:
- parses Gherkin `.feature` files and binds steps to C#,
- integrates with the existing xUnit test runner (the repo standardises on xUnit), so
acceptance tests run under the same `dotnet test` / `make ci` gate as everything else,
- is actively maintained on modern .NET (we target net10.0).
## Decision
**Use [Reqnroll](https://reqnroll.net/) (`Reqnroll.xUnit`) for acceptance tests.**
- Reqnroll is the actively-maintained, open-source successor to SpecFlow (which is no longer
maintained). It keeps the same Gherkin + `[Binding]` model, so the knowledge transfers.
- `Reqnroll.xUnit` generates one xUnit test per scenario, so acceptance tests are discovered
and run by the same runner as the unit tests — no second test framework, no extra CI step.
- Acceptance projects live under `tests/acceptance/` per the PRD §9 layout. Generated
`*.feature.cs` files are build artefacts and are git-ignored.
## Consequences
- **Positive:** one assertion/runner stack (xUnit) across unit and acceptance tests; scenarios
are written in business language (Dutch domain terms inline) and reviewed as the slice's
contract; maintained tooling on net10.0.
- **Cost:** a new dependency (`Reqnroll.xUnit`) and its xUnit v2 transitive graph. Reqnroll
pulls `xunit.core` but not the assertion library, so the `xunit` metapackage is referenced
explicitly to get `Assert`.
- **Replaceable by:** hand-written xUnit "scenario" tests with a Given/When/Then helper, at
the cost of losing Gherkin as the shared, readable contract — which is the whole point of §3.
- **Follow-ups:** the real-OpenZaak integration test (Testcontainers) and the Stryker mutation
baseline for S-04 are tracked as their own issues split off #5.
## Alternatives considered
- **SpecFlow** — rejected: unmaintained and without an official net10.0 story; Reqnroll is its
drop-in successor.
- **Plain xUnit Given/When/Then helpers** — rejected for user-visible flows: loses the
business-readable Gherkin contract that §3/§11 require. Still fine for unit-level tests.
- **Xunit.Gherkin.Quick** — rejected: lighter but less featureful (no hooks/scoped contexts,
smaller community) than Reqnroll.

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@@ -1,68 +0,0 @@
# ADR-0005: Stryker.NET for mutation testing, baseline on the ACL
- **Status:** Accepted
- **Date:** 2026-06-25
- **Deciders:** Respellion engineering
- **Relates to:** S-04b (#47); proposed in #51; supports CLAUDE.md §5 (mutation ratchet) and §3 (Definition of Done)
## Context
CLAUDE.md §5 mandates Stryker on every PR with a **ratchet**: CI fails on a regression
below the established baseline, and the baseline only ever moves up. §3 lists "mutation
(ratchet)" as a Definition-of-Done gate for **every** slice. Yet no baseline existed — so,
strictly, no slice could satisfy that gate. S-04b establishes it.
The ACL is the natural place to set the first baseline: it is the first service with real
branching logic — `OpenZaakGateway` (HTTP contract, geo CRS headers, error handling),
`ZgwToken` (HS256 JWT minting), and the `AclService` default-fill mapping. We need a tool
that:
- mutates C# and runs the existing xUnit suite per mutant,
- is reproducible (same version locally and in CI, no global install),
- understands this repo's `.slnx` solution format (used repo-wide),
- emits a break threshold CI can gate on.
## Decision
**Use [Stryker.NET](https://stryker-mutator.io/docs/stryker-net/) (`dotnet-stryker`),
pinned as a local dotnet tool**, configured in solution mode against `Acl.slnx`.
- Pinned in `.config/dotnet-tools.json` (v4.15.0); `dotnet tool restore` makes
`make mutation` reproducible from a fresh clone, locally and in CI — no global install.
- **Solution mode** (`stryker-config.json``solution: Acl.slnx`) mutates the two projects
under test (`Acl.Application`, `Acl.Infrastructure`); `Acl.Api` is untested and skipped.
Stryker 4.15 reads `.slnx` directly, so no throwaway `.sln` shim is needed.
- A `mutation` make target runs it; it is wired into `make ci` and a parallel Gitea Actions
`mutation` job, keeping `make ci` an exact mirror of the pipeline.
**Baseline:** writing S-04b's tests surfaced that the ACL suite was thin — the initial
score was **35%** (survivors: unasserted CRS headers, null guards, error paths, and JWT
claims). Those tests were strengthened (killing the mutants honestly rather than lowering
the bar), raising the score to **95%**. The enforced `break` threshold is set to **90%**
one-mutant headroom over the ~20-mutant surface, since a single mutant is ≈5%.
## Consequences
- **Positive:** test *strength* is gated, not just coverage; the ratchet protects the ACL's
ZGW contract logic; the baseline is repo-wide and ratchets upward per §5.
- **Cost:** a new dependency (`dotnet-stryker`) and a slower CI job than unit tests (~25 s on
the small ACL). Pinned + tool-restored, so reproducible.
- **One accepted survivor:** a mutation of the empty-response *exception message string*.
Asserting exception message text is brittle and the behaviour (type + control flow) is
unchanged — treated as an equivalent mutant, not a test gap.
- **Commitment:** later slices ratchet the threshold up deliberately, never down (§5). New
services add their own mutation run as they gain branching logic (BFF, Domain, …).
- **Replaceable by:** no realistic .NET alternative — Stryker.NET is the tool §5 already
names; the fallback is no mutation testing, which §5 forbids.
## Alternatives considered
- **Global `dotnet tool install -g`** — rejected: not reproducible/pinned per clone; the
local manifest gives every checkout and the CI runner the same version.
- **Mutate the whole `register-referentie.slnx`** — rejected for this slice: scopes the
baseline to services with no logic yet (BFF skeleton), diluting the signal. Each service
opts in as it gains logic.
- **Application-only scope** — rejected: would leave `Acl.Infrastructure`'s HTTP/JWT logic —
the riskiest code — unguarded by the ratchet.
- **Coverage gate instead of mutation** — rejected: line coverage does not measure whether
tests would *catch* a regression; that is the whole point of §5.

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@@ -1,92 +0,0 @@
# ADR-0006: Provision the ACL integration test against the compose stack
- **Status:** Accepted
- **Date:** 2026-06-29
- **Deciders:** Respellion engineering
- **Relates to:** S-04a (#46); proposed in #53; builds on ADR-0001 (loose coupling), ADR-0002 (catalogus design), ADR-0003 (default-fill); supports CLAUDE.md §11 (integration tests via real containers)
## Context
S-04 delivered the ACL's one operation — `OpenZaakGateway.OpenZaakAsync` — with unit
tests against a stubbed `HttpMessageHandler` and a Reqnroll scenario over an in-memory
stand-in. The deferred S-04 acceptance criterion (S-04a) is the one a stub cannot meet:
> Integration test using Testcontainers against real OpenZaak passes.
The test must drive the gateway against a **real** OpenZaak — real ZGW JWT auth, the real
`POST /zaken/api/v1/zaken` contract, real CRS handling — and assert a zaak comes back.
Two ways to stand OpenZaak up were considered (the issue's open question): (a) a full
**Testcontainers** graph started by the test, or (b) target the **running compose stack**
the repo already defines (`infra/openzaak/docker-compose.yml`, `make openzaak-up`).
Investigation reversed the initially-favoured Testcontainers option:
1. **Testcontainers .NET has no docker-compose support.** OpenZaak needs PostGIS + Redis +
a `setup_configuration` one-shot (the JWT client) + the API. Honouring "full graph" would
mean re-implementing that five-service stack — init ordering, the config volume, health
gating — by hand in C#, duplicating the maintained compose file and rotting with it. That
rubs against CLAUDE.md §13 ("if a test is hard to write, the design is wrong").
2. **The test cannot be hermetic anyway.** OpenZaak's Zaken API rejects a zaak against a
*concept* zaaktype (`not-published`), and a *published* zaaktype requires ≥1 resultaattype,
which OpenZaak validates by fetching the external **Selectielijst** reference API
(`selectielijst.openzaak.nl`). So a real zaak POST already depends on outbound internet
from the OpenZaak container — the self-containment that motivated Testcontainers is lost
regardless of how the containers are started.
## Decision
**The ACL integration test targets the running compose stack; it does not start containers
itself. No new test dependency is added.**
- A gated test project `Acl.IntegrationTests` (`[Trait("Category","Integration")]`) talks to
OpenZaak with a plain `HttpClient`, reusing the same endpoint + JWT-client config the seed
uses (`OZ_BASE` / `OZ_CLIENT_ID` / `OZ_SECRET`, defaulting to the local stack). It locates
the published `BIG-REGISTRATIE` zaaktype via the Catalogi API and exercises the real
`OpenZaakGateway` against it.
- **The lane is kept out of the fast checks.** `make unit` runs with
`--filter "Category!=Integration"`; Stryker is pinned to `Acl.Tests` (`test-projects`), so
neither the unit nor the mutation lane needs a live stack. A `make integration` target
(`infra/run-integration.sh`) brings up a throwaway OpenZaak and runs the lane locally.
In CI the check runs as the `verify-acl` step of the consolidated `verify-stack` job
(issue #58) — one shared full-stack bring-up. This matches `make` being the single
source of truth (ADR-0005).
- **Publishing is opt-in in the seed.** `infra/openzaak/seed_catalogus.py` gains an
`OZ_PUBLISH=1` path that adds the relations OpenZaak's publish requires — two statustypen
(begin/eind), a roltype, and a resultaattype whose Selectielijst procestype is matched onto
the zaaktype — then publishes. The default seed (S-01 / ADR-0002) still leaves the zaaktype
a concept; only `make integration` flips the switch.
## Consequences
- **Positive:** a small, honest test over the real ZGW contract with no bespoke orchestration
to maintain; the compose stack is exercised exactly as operators run it; no new dependency.
- **It caught a real bug.** The gateway sent the zaak body via `JsonContent` without a
`Content-Length`, so .NET framed it as `Transfer-Encoding: chunked`, which OpenZaak's uwsgi
rejects with 400. A stubbed handler accepts either framing, so only a real OpenZaak surfaced
it. Fixed by buffering the body (`LoadIntoBufferAsync`); guarded in the fast lane by a unit
test asserting a `Content-Length` is set. This is the concrete justification for §11's
integration tier.
- **External dependency:** the integration job needs the OpenZaak container to reach
`selectielijst.openzaak.nl`. It is a stable public reference API (the same one OpenZaak uses
in production) but it is a network touchpoint, and a CI environment without egress would need
a local Selectielijst service or a recorded fixture. `OZ_SELECTIELIJST` overrides the base URL.
- **Cost:** the lane needs the stack up first, so it is separate from the fast lanes.
- **Runs on the hosted runner.** A process *on* the runner can't reach the stack's published
ports (Compose starts sibling containers via the host daemon — gitea-actions-gotchas.md §5,
same split as §1), so `infra/run-integration.sh` runs both 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`; an IPv4 literal is). Code is
delivered by image build / `docker cp`, never bind mounts. The CI job therefore needs only
Docker — no `setup-dotnet`. (This closed the follow-up that was originally split out as #55.)
## Alternatives considered
- **Full Testcontainers graph** — rejected: re-implements the compose stack in C# (brittle,
duplicative) for no hermeticity gain, since the Selectielijst dependency remains.
- **Single OpenZaak container (sqlite/locmem)** — rejected: diverges from the real
PostGIS-backed, Redis-cached deployment; the Zaken API is a geo API and the divergence would
undermine the contract the test exists to verify.
- **Mock OpenZaak / record-replay** — rejected: that is what the existing stubbed-handler unit
tests already do; it cannot exercise the real contract, and would not have caught the chunked
body bug.

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# ADR-0007: Wiring OpenZaak → Open Notificaties (NRC) for notifications
- **Status:** Accepted
- **Date:** 2026-06-29
- **Deciders:** Respellion engineering
- **Relates to:** S-01-c (#56); completes S-01 (#2); unblocks the Event Subscriber (#7); builds on ADR-0002 (catalogus/seed) and ADR-0006 (runner-safe container harnesses)
## Context
S-01 brought OpenZaak + Open Notificaties (NRC) up in compose but **deferred the
notification wiring**: OpenZaak ran with `NOTIFICATIONS_DISABLED=true` and NRC's
`setup_configuration` was empty. The walking skeleton (PRD §12) needs the upstream
event path — a zaak created in OpenZaak must publish a notification NRC fans out to
subscribers — before the Event Subscriber (#7) can consume it.
The OpenZaak↔NRC handshake is intricate and several details are non-obvious; they
were nailed down by iterating `setup_configuration` against the running stack.
## Decision
**Provision both sides declaratively via `setup_configuration`, authenticate with the
existing `big-reference-seed` client, and run NRC's celery-beat so deliveries happen.**
- **OpenZaak** (`infra/openzaak/setup_configuration/data.yaml`): a `zgw_consumers`
service `nrc` (api_type `nrc`, the NRC API root) plus `notifications_config` naming
it. `NOTIFICATIONS_DISABLED` is flipped to `false` **only when NRC is present**
the full stack and the local twin set it; OpenZaak-only bring-ups (`openzaak-up`,
the ACL integration test) default it back to `true` via `OZ_NOTIFICATIONS_DISABLED`
so they don't 500 publishing to an absent NRC.
- **NRC** (`infra/opennotificaties/setup_configuration/data.yaml`): the
`big-reference-seed` JWT credential (to verify OpenZaak's token), a `zgw_consumers`
`ac` service pointing at **OpenZaak's Autorisaties API**, the `autorisaties_api`
step delegating authorization to that AC, and the `zaken` kanaal. NRC's init
container switches from `migrate` to `/setup_configuration.sh`; its data.yaml is
delivered through the `rr-nrc-config` external volume by `infra/seed-config.sh`
(the same `docker cp` pattern as OpenZaak — bind mounts don't reach the CI runner's
daemon).
- **celery-beat is required.** NRC accepts a notification and writes a
`ScheduledNotification`; a periodic `execute_notifications` task (celery-beat,
every `NOTIFICATION_SEC_INTERVAL`s) drains it to the worker for delivery. The lean
S-01 stack dropped beat — so notifications were accepted but never delivered. An
`nrc-beat` service is added to every compose; the interval is lowered to 5s.
Verification is a runner-safe smoke (`infra/run-notification-check.sh`): it seeds a
published BIG zaaktype, registers an abonnement to a webhook sink, creates a zaak, and
asserts the sink receives the `zaken`/`create` notification — all from containers
**inside** the compose network (ADR-0006). Locally it runs via `make verify-notifications`
(a throwaway oz+nrc stack); in CI it runs as the `verify-nrc` step of the consolidated
`verify-stack` job (one shared full-stack bring-up — issue #58).
## Consequences
- **Positive:** the walking-skeleton event path works end to end; #7 can consume real
notifications; the wiring is declarative and reproducible from a fresh `make`.
- **Gotchas captured (see gitea-actions-gotchas.md):**
- **Single-label hosts aren't URL-valid.** OpenZaak/NRC reject `http://openzaak…`
/`http://nrc-web…` in URLs they validate (Django `URLValidator`); the verify
harness reaches services and registers the sink callback **by container IP**.
- **Abonnement callbacks must enforce auth.** NRC probes the callback during
registration and refuses it (`no-auth-on-callback-url`) unless it returns 401
without the configured `Authorization`; the sink enforces a bearer token.
- **Cost:** an extra long-running service (`nrc-beat`) per stack, and the verify job
needs egress (base images + `selectielijst.openzaak.nl`, since the published
zaaktype the check creates a zaak against depends on it — ADR-0006).
- **Dev-only credentials** reused (`big-reference-seed` / its secret) across publish,
AC lookup, and seeding — acceptable for the reference app, not production.
## Alternatives considered
- **NRC with its own (non-AC) authorization** — rejected: delegating to OpenZaak's
Autorisaties API is the upstream-intended model and reuses the applicatie that
already grants `heeft_alle_autorisaties`.
- **Keep beat out, deliver synchronously** — not an option: Open Notificaties 1.16
delivers via scheduled notifications drained by beat; there is no sync path.
- **A persistent abonnement in `setup_configuration`** instead of registering one in
the verify harness — deferred: the real subscriber is #7; the harness's sink
abonnement is throwaway and IP-specific.

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# ADR-0008: The read projection — a shared, rebuildable store with a writer and a reader
- **Status:** Accepted
- **Date:** 2026-06-30
- **Deciders:** Respellion engineering
- **Relates to:** S-06 (#7); builds on ADR-0001 (loose coupling), ADR-0007 (#56, OZ→NRC wiring); first EF Core usage in the repo
## Context
S-06 (#7) adds the upstream event path's destination: an **Event Subscriber** that consumes
NRC notifications and a **read projection** the openbaar register reads. The walking-skeleton
projection (PRD §8.4) holds one row per zaak — `id`, `bsn`, `naam_placeholder`, `status`
and must be **idempotent** (NRC redelivers and reorders, CLAUDE.md §8.6) and **rebuildable**
(a derived artefact, never a write-only source of truth).
Two design questions had no obvious answer:
1. **Where does `bsn` come from?** The NRC `zaken`/`zaak`/`create` notification carries only the
zaak URL plus the fixed `kenmerken` (`bronorganisatie`, `zaaktype`, `vertrouwelijkheidaanduiding`).
It does **not** carry the bsn. Reading it means calling a ZGW API — which **only the ACL** may
do (CLAUDE.md §8.1). The issue's "Touches" lists only `event-subscriber` + `projection-api`,
not the ACL.
2. **Who owns the projection schema?** The subscriber writes the projection; the projection-api
reads it. CLAUDE.md §8.5 says "no direct DB access across services; each service owns its
schema." Two deployables on one table looks like a violation.
## Decision
**One Postgres database is the read projection. The Event Subscriber writes it (projector) and
the projection-api reads it (query); both are processes of the single "Read Projection" bounded
context and share one schema, defined in a shared `Projection.ReadModel` library. `bsn` is
deferred.**
- **Schema ownership.** The read model — `register_projection` plus the subscriber's
`processed_notifications` log — lives in `services/projection-api/Projection.ReadModel`
(EF Core + Npgsql). Both services reference it. This is the textbook CQRS read-model split
(one writer, one reader over one derived store), **not** the cross-*domain* DB reach §8.5
forbids: no domain owns write-state here; the projection is rebuildable (§8.4). §8.5 still
holds for every domain database.
- **Idempotency** is the primary key on `processed_notifications.key` (a deterministic key
derived from the immutable notification content). A duplicate insert raises a unique violation,
caught and reported as "already recorded", so the duplicate never reaches the projection. The
projection upsert is itself idempotent on the zaak id, a second line of defence.
- **Rebuild replays the log, not OpenZaak.** `POST /admin/rebuild` clears `register_projection`
and reprojects every row in `processed_notifications`. So "rebuildable" needs **no** ZGW access
(§8.1) and no ACL dependency — keeping S-06 within its stated scope.
- **`bsn` and `naam_placeholder` are deferred.** They are columns (nullable) but the minimal slice
populates only `id` + `status` (`INGEDIEND`) from the notification. Populating personal data
requires reading the zaak **through the ACL** (§8.1) and is its own follow-up; the column shape
is in place so that change is additive.
- **New dependency: EF Core 10 + `Npgsql.EntityFrameworkCore.PostgreSQL`.** What it gives us: a
migrated relational schema, LINQ queries, and a clean port implementation. What we'd write
instead: hand-rolled SQL + a migration runner. Risk: ORM complexity and an extra dependency
graph — bounded here to a tiny two-table read model. `dotnet-ef` is pinned as a local tool for
migrations; `NuGetAuditMode=direct` keeps EF's design-time-only tooling transitive out of the
audited, shipped graph.
The end-to-end path is verified by a runner-safe live-stack smoke (`infra/run-projection-check.sh`,
the `verify-projection` step of the `verify-stack` job, #58): register an abonnement at the real
Event Subscriber's callback, create a zaak, assert projection-api serves an `INGEDIEND` row — all
in-network, reaching services by container IP (ADR-0006/0007).
## Consequences
- **Positive:** the upstream event path reaches a queryable projection; idempotent and rebuildable
without OpenZaak; S-06 stays inside its stated touch-set (no ACL change); the projection-api is
ready for S-09 to tighten public-safe field filtering.
- **Negative / deferred:**
- `bsn`/`naam_placeholder` stay empty until a follow-up wires zaak reads via the ACL.
- The abonnement is registered by the verify harness (by container IP), not provisioned
persistently — ADR-0007 already deferred a persistent abonnement, and a single-label service
host is not URL-valid for NRC, so persistent registration needs a dotted network alias. Tracked
as a follow-up; a plain `make up` therefore needs the abonnement registered before the event
path flows.
- Two services share one database. Acceptable for a derived read model; revisit if the read and
write sides ever need independent scaling or storage.
## Alternatives considered
- **Subscriber reads OpenZaak directly to fill `bsn`** — rejected: breaks §8.1 (only the ACL talks
to ZGW) and would need its own ADR to bend the rule.
- **Extend the ACL with a zaak-read operation, consumed as a library** — viable and §8.1-clean, but
it grows S-06 beyond its stated scope (touches the ACL) and pulls personal-data handling forward;
deferred to a follow-up.
- **projection-api owns the DB and exposes an internal write endpoint the subscriber calls** —
rejected for the walking skeleton: adds an HTTP hop and a write surface on a read service for no
current benefit over a shared, rebuildable read model.
- **Separate databases for the log and the projection** — rejected as premature: both are the read
side's private, rebuildable state; one DB is simpler and still honours §8.5's intent.

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# ADR-0009: The Domain Service drives Flowable as an external-task job worker
- **Status:** Accepted
- **Date:** 2026-06-30
- **Deciders:** Respellion engineering
- **Relates to:** S-05 (#6); proposal #60; builds on ADR-0001 (loose coupling, §8.1/§8.2), S-03 (#4, the `registratie` BPMN), S-04 (#5, the ACL `OpenZaak` operation)
## Context
S-05 (#6) adds the **BIG Domain Service**. Submitting a registration must: create a
`Registration` aggregate, **start the Flowable `registratie` process** (S-03), have the
`OpenZaakAanmaken` task **open a zaak via the ACL** (S-04), and store the resulting zaak URL
back on the aggregate.
`OpenZaakAanmaken` is a Flowable **external-worker** service task (`flowable:type="external-worker"`,
topic `OpenZaakAanmaken`). Flowable does not push it anywhere — it parks the job and waits for a
worker to **acquire and lock** it, do the work, and **complete** it. Two coupling rules constrain
who may do what:
- **§8.2 — the Workflow Client is the only code that talks to Flowable.** BPMN models never embed
OpenZaak knowledge; they ask the Workflow Client to execute external tasks.
- **§8.1 — the ACL is the only code that talks to ZGW.** The worker opens the zaak *through the ACL*,
never by constructing ZGW URLs itself.
This is an ADR-worthy moment (§14): a service boundary is defined and both coupling rules are
exercised. The open question is *how* the external task is driven.
## Decision
**The Domain Service drives the `OpenZaakAanmaken` task as a hosted external-task job worker
(PRD §36). Orchestration is eventually consistent, not request-synchronous.**
- **`POST /registrations` is fast and side-effecting only on the domain side.** It creates the
`Registration` aggregate in state `INGEDIEND`, persists it, and asks the Workflow Client to start
one `registratie` process instance, recording the process-instance id on the aggregate. It returns
immediately; it does **not** wait for the zaak to be opened.
- **A hosted worker polls Flowable for `OpenZaakAanmaken` jobs.** It acquires and locks a job, calls
the ACL `OpenZaak` operation (§8.1), attaches the returned zaak URL to the matching aggregate
(`Registration.AttachZaak`), and completes the job in Flowable. The process then runs to its end
event.
- **The Workflow Client is the only Flowable client (§8.2).** It lives in the Domain Service's
`Infrastructure` layer and speaks Flowable's REST API (start process-instance; acquire/lock/complete
external-worker jobs). No other code — not the Application layer, not the BPMN — knows Flowable
exists.
- **The worker *logic* is an Application service over ports**, not Flowable-aware code. `OpenZaakWorker`
takes an acquired job (topic + the registration id it carries), calls `IAclClient` and
`IRegistrationStore`, and returns the zaak URL to complete with. The **polling loop** is a thin
`BackgroundService` in `Infrastructure` that fetches jobs via the Workflow Client and feeds them to
the worker. So the orchestration is covered by fast unit tests against fakes; only the REST framing
needs a container integration test.
## Scope decisions for the minimal slice
- **Registration persistence is in-memory.** The walking skeleton's *read* path is fed by
NRC → Event Subscriber → projection (S-06, #7), not by the domain database. An EF-backed domain
store buys nothing the demo needs yet, so it is a documented follow-up; the `IRegistrationStore`
port keeps that change additive. (PRD §88 envisions EF Core for the domain DB eventually.)
- **The aggregate's state machine is minimal:** `INGEDIEND` on submission. Later flows (withdrawal,
beoordeling, herregistratie) add states in their own slices — they are out of scope here.
- **No bsn flows to ZGW yet.** The ACL `OpenZaak` operation already default-fills the ZGW-mandatory
fields (ADR-0003) and takes the bsn as its domain payload; the domain hands it through unchanged.
## Consequences
- **Positive:** the submit request is decoupled from ACL/OpenZaak latency; the documented Common
Ground pattern (external-task worker) is realised; both coupling rules (§8.1, §8.2) hold with the
Flowable knowledge isolated to one Infrastructure class; the orchestration is unit-testable.
- **Negative / deferred:**
- Eventual consistency: immediately after `POST /registrations` the aggregate has no zaak URL yet.
Acceptable — the read side is the projection, not the domain store.
- In-memory registration state is lost on restart; fine for the skeleton, replaced by an EF store
in a follow-up.
- The worker polls (no push); poll interval is a tuning knob, not a correctness concern, since
Flowable holds the job until completed.
## Alternatives considered
- **Synchronous acquire+complete inside the `POST /registrations` request** — rejected: simpler and
deterministic, but couples the submit request to ACL/OpenZaak latency and failure, and is not the
external-task worker pattern PRD §36 mandates. It would also make the request fail if OpenZaak is
briefly down, instead of the job simply staying parked for the worker to retry.
- **A standalone Workflow Client service, separate from the Domain Service** — rejected for this
slice: the worker needs the domain's aggregate store and the ACL client anyway, and PRD §9 places
the Workflow Client inside the Domain Service deployment. A separate process adds a hop and a
shared store for no current benefit.
- **Flowable pushes to a webhook instead of being polled** — rejected: Flowable's external-worker
model is pull-based (acquire/lock/complete); a push shim would re-implement it with weaker
delivery guarantees.

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# ADR-0010: The BFF validates Keycloak tokens and is the portals' only backend
- **Status:** Accepted
- **Date:** 2026-07-01
- **Deciders:** Respellion engineering
- **Relates to:** S-07 (#8); proposal #63; builds on ADR-0001 (loose coupling, §8.3), S-02 (#3, Keycloak realms), S-05 (#6, Domain Service), S-06 (#7, read projection)
## Context
S-07 (#8) adds the **BFF (Backend-for-Frontend)** — the single backend the Angular portals talk
to (CLAUDE.md §8.3). For the walking skeleton it exposes two endpoints and fans out to services
already built:
- `POST /self-service/registrations` → Domain Service `POST /registrations` (S-05).
- `GET /openbaar/register?q=…` → projection-api `GET /register` (S-06).
It must validate tokens issued by Keycloak (S-02). This is an ADR-worthy moment (§14): a new
dependency (JWT bearer authentication) and two new service boundaries (BFF→domain, BFF→projection).
## Decision
**The BFF is the portals' only backend; it validates Keycloak `digid`-realm JWTs on the
self-service endpoint, leaves the openbaar lookup anonymous, and fans out to the domain and
projection over typed HTTP clients.**
- **Auth model.** `POST /self-service/registrations` requires a valid `digid`-realm bearer token;
the BFF reads the `bsn` claim and forwards it to the domain. Missing / invalid / expired token →
**401**. `GET /openbaar/register` is **anonymous** — the openbaar register is a public lookup
(S-09), so no token is required.
- **Portals talk only to the BFF (§8.3).** They never call the Domain Service, ACL, projection, or
OpenZaak directly. The BFF orchestrates via typed `HttpClient`s whose base URLs come from config.
Downstream calls are unauthenticated on the internal network for the walking skeleton; a
service-to-service auth story (e.g. client-credentials) is a later slice, not this one.
- **Validation is `Microsoft.AspNetCore.Authentication.JwtBearer`** pointed at the Keycloak `digid`
realm authority. **New dependency justification:** it gives us standards-based OIDC/JWT validation
(signature, issuer, expiry, audience) maintained by the framework; rolling our own JWT validation
would be error-prone security code; the risk is a first-party ASP.NET Core package — minimal.
- **Tests mint their own tokens.** `WebApplicationFactory` tests override the bearer options with a
**test signing key**, so valid / invalid / expired tokens are minted in-process without a live
Keycloak. Real Keycloak validation is exercised by a live-stack `verify-bff` check.
- **OpenAPI is generated and committed** (`services/bff/openapi.json`) from .NET's built-in OpenAPI,
so S-08's Angular client is generated from the spec, never hand-written (§10).
## Known wrinkle — container OIDC issuer mismatch
Keycloak stamps tokens with an `iss` equal to its **browser-facing** URL (what the portal used to
log in), which differs from the BFF's **in-container** authority (`http://keycloak:8080/realms/digid`).
Strict issuer validation then rejects otherwise-valid tokens. Unit tests avoid this (test key).
`verify-bff` handles it by aligning the configured authority/issuer with the token's `iss` (and, if
needed, disabling metadata address rewriting). Recorded so it is not rediscovered each time.
## Consequences
- **Positive:** the walking skeleton gains its front door; §8.3 holds with all portal traffic going
through one backend; token validation is standard and testable without infra; the committed
OpenAPI unblocks S-08.
- **Negative / deferred:**
- Downstream service-to-service auth is deferred (internal-network trust for now).
- The openbaar endpoint is anonymous; when public-safe field filtering tightens (S-09) it stays
anonymous but the projection query narrows.
- The issuer-mismatch handling is dev-oriented; a production reverse-proxy setup would align the
browser and internal issuer URLs instead.
## Alternatives considered
- **Token-gate the openbaar endpoint too** — rejected: the openbaar register is public by design
(S-09); requiring a login would contradict the slice's intent.
- **Validate tokens by calling Keycloak's introspection endpoint per request** — rejected: adds a
network hop per call and a Keycloak dependency on the hot path; local JWT signature validation via
the realm's JWKS is the standard, faster choice.
- **Hand-written JWT parsing** — rejected: security-sensitive code we shouldn't own when a
first-party validator exists.
- **Generate the OpenAPI client by hand / keep the spec uncommitted** — rejected: §10 requires a
generated client from a committed spec.

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# ADR-0011: Approval sets the zaak eindstatus via the ACL and projects INGESCHREVEN from the notification alone
- **Status:** Accepted
- **Date:** 2026-07-13
- **Deciders:** Respellion engineering
- **Relates to:** S-09b (#75); split from S-09 (#10); builds on ADR-0001 (§8 loose coupling), ADR-0003 (ACL default-fill), ADR-0007 (OZ→NRC wiring), ADR-0008 (read projection), ADR-0009 (external-task worker)
## Context
The walking skeleton could submit a registration (INGEDIEND) and show it in the openbaar register,
but nothing could **approve** it. S-09b adds a behandelaar approval that must make the entry publicly
visible as a terminal status. There is no behandel-portal yet (S-12), so approval is triggered by a
**temporary admin endpoint** on the Domain Service.
Two decisions are non-obvious (§14) and cross service boundaries:
1. **Who resolves the ZGW statustype?** Approval means "set the zaak to its final status", but the
domain must stay ZGW-ignorant (§8.1 — only the ACL talks to ZGW) and does not know statustype URLs.
2. **How does the projection learn the new status?** The status is set in OpenZaak, which notifies over
NRC; the Event Subscriber projects it. But the subscriber **may not read OpenZaak** (§8.1), and an
NRC `status`/`create` notification's `resourceUrl` is the *status* resource, not the zaak, and does
not carry the statustype.
## Decision
**Approval flows Domain → ACL → OpenZaak → NRC → Event Subscriber → projection, using only the
notification's own fields on the read side.**
- **Domain.** `Registration.Approve()` advances INGEDIEND → INGESCHREVEN (requires an opened zaak; a
repeat is a no-op). The `ApproveRegistration` use case calls the ACL to set the zaak status, then
advances the aggregate. A temporary `POST /registrations/{id}/approve` endpoint drives it.
- **ACL.** A new `POST /statussen` operation takes only the zaak URL. The ACL resolves the zaaktype's
**eindstatus** from the catalogus (`isEindstatus`, falling back to the highest `volgnummer`) and
POSTs a ZGW status against the zaak. The domain never names statustypen — the ACL owns the ZGW
translation (§8.1, ADR-0003).
- **Event Subscriber.** It binds the NRC `hoofdObject` (always the zaak URL) and keys the projection on
it, so a `zaken`/`status`/`create` notification updates the **same** row the zaak-create created,
flipping it to INGESCHREVEN. It takes **any** status-create as the approval — in the walking skeleton
the only status ever set after creation is the approval — so it never has to read OpenZaak to learn
the statustype. The ZGW `resource` is retained in the notification log (new column) so a rebuild
reproduces the right status.
## Consequences
- The domain↔ACL boundary stays clean: the domain hands over a zaak URL and says "approve"; ZGW
statustype knowledge lives only in the ACL.
- The projection remains rebuildable without OpenZaak (§8.1, ADR-0008): the log now records the ZGW
resource, which is all a rebuild needs to reproject the status.
- The openbaar register shows real lifecycle: INGEDIEND on submit, INGESCHREVEN on approval.
- **Walking-skeleton assumption:** "any status-create ⇒ INGESCHREVEN" holds only while approval is the
sole post-creation status transition. When more transitions arrive (beoordeling, afwijzing — S-12+),
the subscriber must distinguish statustypen. The honest options then are to carry the statustype
omschrijving in the notification `kenmerken`, or to have the ACL resolve it and re-notify — recorded
here so future-me revisits this rather than assuming it generalises.
## Alternatives considered
- **Inject the approved statustype URL into the ACL as config** (like the zaaktype URL). Rejected:
couples ACL config to seed output and adds compose/run-domain-check plumbing; runtime eindstatus
discovery keeps the ACL self-contained for one extra ZGW GET per approval.
- **Have the Event Subscriber GET the status/statustype from OpenZaak** to map precisely. Rejected:
violates §8.1 (only the ACL talks to ZGW) and makes the projection depend on OpenZaak being up.
- **Record the derived status in the notification log** instead of the ZGW resource. Rejected: the log
should retain notification *facts*, not projection semantics; the mapping stays in the projector.

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# Demo script
A running log of demoable outcomes, one section per slice. Each entry is a short,
copy-pasteable walkthrough against a local `make up` stack.
---
## S-08d — Walking skeleton complete: browser → submit, end-to-end
**Outcome:** the self-service portal is served in the stack and the full front-of-house happy path
runs in a real browser — **mock DigiD login → submit → confirmation** — closing the walking skeleton
(portal → BFF → domain → Flowable → ACL → OpenZaak, with the openbaar register reading the projection).
```bash
# 1. Bring the whole stack up (portal served on :8140, BFF :8080, Keycloak :8180).
make up
# 2. Automated happy path — Playwright, inside the compose network (issuer-consistent):
make verify-e2e # → login as jan-burger → submit → "ontvangen" confirmation
# 3. By hand: open the portal, log in as jan-burger / test123, click "Registratie indienen".
open http://localhost:8140
```
> The portal is served same-origin with the BFF (nginx proxies `/self-service` + `/openbaar`), so no
> CORS; the OIDC authority comes from `/config.json` at runtime. See `docs/frontend-decisions.md`.
---
## S-08c — Self-service submit form (NL Design System + DigiD)
**Outcome:** a zorgprofessional logs in via mock DigiD and submits a BIG registration through the
self-service portal (NL Design System styling); the page confirms with the reference returned by the
BFF. The bsn comes from the DigiD token, so it's a confirm-and-submit flow (no bsn field).
```bash
# 1. Bring the backend + Keycloak up (BFF on :8080, Keycloak on :8180).
make up
# 2. Serve the portal (dev server); it redirects to Keycloak for DigiD login.
pnpm nx serve self-service # → http://localhost:4200
# 3. In the browser: log in as the mock DigiD user jan-burger / test123, then submit.
# The page shows the returned registration reference.
```
> First real UI. The full **login → submit → success** happy path is automated in **S-08d**
> (Playwright, against the compose-served app). Component tests + an axe WCAG 2.1 AA check on the
> submit page run headless in the `frontend` CI lane. See `docs/frontend-decisions.md`.
---
## S-08a — Nx workspace + self-service portal skeleton
**Outcome:** the frontend foundation — an Nx (pnpm) monorepo with the `self-service` Angular app
(standalone + signals), lint/test/build green in a CI Node lane. The login + submit form follow in
S-08c.
```bash
# From a fresh clone (Node 24 + pnpm 11):
pnpm install # native builds are pre-approved in pnpm-workspace.yaml
pnpm nx test self-service # Vitest component test
pnpm nx build self-service # production build
pnpm nx serve self-service # → http://localhost:4200 (placeholder page)
# Or the CI-equivalent one-shot:
make frontend # install + nx lint/test/build
```
> Nx manages only `apps/`+`libs/`; the .NET services stay on `dotnet`/the Makefile. NL Design System
> and the real form arrive in S-08c (#67); see `docs/frontend-decisions.md`.
---
## S-07 — BFF: the portals' single backend
**Outcome:** the BFF validates Keycloak `digid` tokens on the self-service submit (forwarding the
bsn to the domain) and serves the openbaar register anonymously with only public-safe fields — the
front door the portals (S-08/S-09) will talk to.
**The path:** portal → BFF `POST /self-service/registrations` (token-gated) → domain; and
BFF `GET /openbaar/register` (anonymous) → projection-api. See ADR-0010.
```bash
# 1. Bring the full stack up.
make up
# 2. Drive the BFF end-to-end (401 without a token, 202 with a real digid token, anonymous openbaar).
make verify-bff # → "OK — BFF: 401 without token, 202 with a digid token, anonymous ..."
# 3. Try it by hand (BFF on host port 8080).
# a) A digid access token for the mock user jan-burger (bsn 123456782):
tok=$(curl -s -X POST http://localhost:8180/realms/digid/protocol/openid-connect/token \
-d grant_type=password -d client_id=big-portal -d username=jan-burger -d password=test123 \
| python3 -c "import sys,json;print(json.load(sys.stdin)['access_token'])")
# b) Submit — without the token it is 401; with it, 202:
curl -s -o /dev/null -w "no token -> %{http_code}\n" -X POST http://localhost:8080/self-service/registrations
curl -s -o /dev/null -w "with token-> %{http_code}\n" -X POST http://localhost:8080/self-service/registrations \
-H "Authorization: Bearer $tok"
# c) The openbaar register is anonymous and exposes only id + status (never the bsn):
curl -fsS http://localhost:8080/openbaar/register | jq
```
> The self-service token is validated against Keycloak's `digid` realm; the openbaar lookup needs no
> token (S-09). The generated contract lives at `services/bff/openapi.json` — S-08's client is built
> from it.
---
## S-05 — BIG Domain Service: submit a registration
**Outcome:** submitting a registration starts a Flowable process; the external-task worker
opens a zaak via the ACL and records it on the aggregate — the upstream half of the skeleton
that produces the zaak S-06 then projects.
**The path:** domain `POST /registrations` → Flowable `registratie` process → `OpenZaakAanmaken`
worker → ACL → OpenZaak; `GET /registrations/{id}` shows the opened zaak (ADR-0009).
```bash
# 1. Bring the full stack up (seeds config, builds our services, waits for health).
make up
# 2. Drive the full path end-to-end. This also seeds a published BIG zaaktype and points the
# ACL at it (the zaak's zaaktype URL is server-assigned, so it isn't known at bring-up).
make verify-domain # → "OK — the domain opened a zaak and recorded it on the registration"
# 3. Submit one yourself (domain on host port 8130). Returns 202 + a Location to read back.
loc=$(curl -fsS -D - -o /dev/null -X POST http://localhost:8130/registrations \
-H 'Content-Type: application/json' -d '{"bsn":"123456782"}' | sed -n 's/\r$//; s/^[Ll]ocation: //p')
# 4. The worker opens the zaak off the request path (eventual consistency, ADR-0009); poll
# until zaakUrl is filled. (Step 2 must have run first, so the ACL knows the zaaktype.)
curl -fsS "http://localhost:8130$loc" | jq
# → { "registrationId": "...", "status": "Ingediend", "zaakUrl": "http://.../zaken/api/v1/zaken/<uuid>" }
```
> Registration state is in-memory for this slice (ADR-0009); the rebuildable read model is the
> projection (S-06), fed by the very zaak this flow opens.
---
## S-06 — Event Subscriber + read projection
**Outcome:** a zaak created in OpenZaak flows through NRC to the Event Subscriber, which
projects it into a rebuildable read projection the projection-api serves.
**The path:** OpenZaak → (notification) NRC → (abonnement callback) Event Subscriber →
`register_projection` → projection-api `GET /register`.
```bash
# 1. Bring the full stack up (seeds config, builds our services, waits for health).
make up
# 2. Register the Event Subscriber's abonnement and create a zaak, then read it back.
# (The verify-projection check does exactly this end-to-end and asserts the result.)
make verify-projection # → "OK — projection-api serves zaak <uuid> with status INGEDIEND"
# 3. Observe the projection directly via the read API (host port 8120).
curl -fsS http://localhost:8120/register | jq
# → [ { "id": "<zaak-uuid>", "status": "INGEDIEND", "bsn": null, "naamPlaceholder": null } ]
# 4. Idempotency + rebuild: replays don't duplicate; a rebuild repopulates from the
# notification log (no OpenZaak access needed — ADR-0008).
curl -fsS -X POST http://localhost:8110/admin/rebuild # Event Subscriber, host port 8110
curl -fsS http://localhost:8120/register | jq 'length' # → unchanged
```
> `bsn` / `naam_placeholder` are deferred (ADR-0008) — the notification doesn't carry them and
> the subscriber may not read OpenZaak directly (§8.1). They surface in a later slice.
---
## S-09 — Openbaar Register portal (public visibility)
**Outcome:** the entry a zorgprofessional submits via self-service becomes publicly visible in the
anonymous openbaar register portal — closing the walking-skeleton loop (submit → process → projection
→ public visibility).
**The path:** self-service submit → BFF → domain → (zaak) OpenZaak → NRC → Event Subscriber →
projection → openbaar portal reads the BFF's public-safe `GET /openbaar/register`.
```bash
# 1. Bring the full stack up (self-service :8140, openbaar :8141).
make up
# 2. Submit a registration via the self-service portal (mock DigiD: jan-burger / test123),
# or drive the whole happy path automatically (login → submit → public visibility):
make verify-e2e
# 3. Open the public register — no login. It lists the submitted entry (id + status only).
# Only public-safe fields cross the BFF: bsn / naam never appear.
open http://localhost:8141/ # search box; searches the BFF by referentie
curl -fsS http://localhost:8140/openbaar/register | jq # same public-safe view via the BFF proxy
# → [ { "id": "<zaak-uuid>", "status": "INGEDIEND" } ]
```
> The register shows `INGEDIEND` on submit; approval flips it to `INGESCHREVEN` — see S-09b below.
---
## S-09b — Approval flow (public visibility flips to INGESCHREVEN)
**Outcome:** a behandelaar approves a submitted registration via a temporary admin endpoint (no
behandel-portal yet — S-12). The approval sets the zaak's final status through the ACL, which flows
back to the projection over NRC, and the openbaar register then shows the entry as `INGESCHREVEN`.
**The path:** `POST /registrations/{id}/approve` (domain) → ACL sets the zaak eindstatus (ZGW
`/statussen`) → OpenZaak → NRC → Event Subscriber projects `INGESCHREVEN` → openbaar register.
```bash
# 1. Full stack up, then drive submit → public INGEDIEND → approve → public INGESCHREVEN:
make up
make verify-e2e
# 2. Or by hand: submit (as in S-09), note the reference, then approve it.
# The zaak is opened off the request path, so approve once GET shows a zaakUrl.
ref="<registration-reference-from-the-confirmation>"
curl -fsS http://localhost:8130/registrations/$ref | jq # domain (host port 8130): wait for .zaakUrl
curl -fsS -X POST http://localhost:8130/registrations/$ref/approve -i # → 204 No Content
# 3. The public register now shows the entry as approved.
curl -fsS http://localhost:8140/openbaar/register | jq
# → [ { "id": "<zaak-uuid>", "status": "INGESCHREVEN" } ]
```
> **End of walking skeleton** (S-09 + S-09b): submit → process → projection → public visibility, from
> INGEDIEND through approval to INGESCHREVEN. The subscriber takes any post-creation status-set as the
> approval (ADR-0011) — a walking-skeleton assumption that tightens when more transitions arrive (S-12+).

View File

@@ -1,119 +0,0 @@
# Frontend decisions
A running log of frontend tooling and component decisions (CLAUDE.md §10). One entry per
decision; record *why*, and note any deviation from NL Design System.
---
## Workspace & tooling (S-08a, #65)
The portals live in an **Nx monorepo at the repository root**, alongside the .NET `services/`.
- **Package manager: pnpm.** Native build scripts are approved explicitly in `pnpm-workspace.yaml`
under `allowBuilds` (pnpm 11 fails the install otherwise). Node 24, pnpm 11.
- **Angular, standalone components + signals, no NgModules** (§10). Apps are generated with
`@nx/angular:application`.
- **Unit tests: Vitest** via Angular's built-in `@angular/build:unit-test` (the `vitest-angular`
runner). **Angular Testing Library** is added for component tests when the first real components
land (S-08c); the S-08a placeholder uses a plain `TestBed` render assertion.
- **Lint: ESLint** (flat config, `@nx/eslint`).
- **Nx is scoped to `apps/` + `libs/` only.** The `@nx/docker` and `@nx/dotnet` plugins are **not**
installed — the .NET services are built by `dotnet`/the Makefile, and `@nx/docker` would otherwise
infer every `services/*/Dockerfile` as an unnamed Nx project and break the project graph.
- **No Nx Cloud.** `nxCloudId` is stripped from `nx.json`; remote caching would depend on an
external service, and the repo is Gitea-only (§8.7). Nx's "configure-ai-agents" additions
(`.claude/settings.json`, a CLAUDE.md section referencing a GitHub marketplace) are **not**
committed for the same reason.
- **CI:** a `frontend` job (`make frontend``pnpm install --frozen-lockfile` + `nx run-many -t
lint test build`) runs on pnpm + Node, with pinned action URLs (§15).
**NL Design System:** not yet introduced — the S-08a app is a placeholder. NL DS components arrive
with the submit form (S-08c, #67); any deviation from NL DS will be recorded here.
---
## API client generator (S-08b, #66)
`libs/api-client` is **generated from `services/bff/openapi.json`** — never hand-written (§10).
- **Generator: orval** (`client: 'angular'`), a **node-based** generator (no Java, unlike
`openapi-generator`), so it runs in the pnpm/Node CI lane. It emits an injectable
`BffApiV1Service` using Angular's `HttpClient` — which means the DigiD bearer token can be attached
by an **`HttpInterceptor`** (S-08c), the idiomatic Angular approach; a fetch-based SDK would bypass
the interceptor pipeline.
- **Config:** `libs/api-client/orval.config.ts` (single-file output into `src/lib/generated/`,
`clean: true`, prettier). **Regenerate with `nx run api-client:generate`** after the BFF spec
changes; the output is deterministic (idempotent), and `src/lib/generated/` is never hand-edited.
- **Tested** against a mocked BFF via `HttpClientTesting` (`libs/api-client/src/lib/bff-api.spec.ts`).
- The BFF endpoints carry no `operationId`, so orval synthesises method names
(`postSelfServiceRegistrations`, `getOpenbaarRegister`); adding explicit operation ids to the BFF
is a possible later polish.
---
## Self-service form: NL DS, DigiD auth, testing (S-08c, #67)
- **NL Design System via `@utrecht/component-library-angular`** (`libs/ui`) + `@utrecht/design-tokens`
(imported once in `apps/self-service/src/styles.css`). Utrecht is NL DS's reference Angular
implementation. Its v3 components are **NgModule-based, not standalone**, so `libs/ui` re-exports
`UtrechtComponentsModule` (and the component classes, so the AOT compiler resolves the template
directives through the barrel); standalone components consume it via `imports: [UtrechtComponentsModule]`.
§10's "no NgModules in new code" governs *our* code — consuming a third-party module is fine.
- **DigiD login via `angular-auth-oidc-client`** (`libs/auth`): auth-code + PKCE against the Keycloak
`digid` realm (public client `big-portal`). A small **`AuthService` abstraction** (bsn /
isAuthenticated / login) wraps the library so components and the `authenticatedGuard` depend on a
mockable surface; a **token `HttpInterceptor`** attaches the bearer to BFF calls (secure route).
The OIDC `authority`/`secureApiOrigin` are dev defaults in `app.config.ts`; the compose-served app
overrides them (S-08d), and the browser-vs-container issuer alignment is handled there (ADR-0010).
- **Testing:** component tests use **`@testing-library/angular`** (§10) with `AuthService` and the
api-client mocked; the **axe** (`vitest-axe`) check runs scoped to WCAG 2.1 AA tags
(`wcag2a/2aa/21a/21aa`) with the document `lang` set, asserting zero violations on the submit page.
The real DigiD browser round-trip is exercised in S-08d (Playwright).
- **Module boundaries:** replaced the demo eslint `depConstraints` (`scope:shop`/`scope:shared`, left
over from the Nx angular template) with a permissive `*` default; scope/type tags can be
introduced when the portal set grows.
---
## Serving + e2e (S-08d, #68)
- **Served by nginx, same-origin as the BFF.** The compose `self-service` image serves the built app
and **reverse-proxies** `/self-service/*` + `/openbaar/*` to the `bff` service. Because the
api-client uses **relative URLs**, the browser calls the app's own origin → nginx forwards to the
BFF: **no CORS**, and the DigiD token (same-origin) is attached by the interceptor. nginx resolves
the BFF at request time (a `resolver` + variable `proxy_pass`) so it starts before the BFF is up.
- **Runtime config.** The app fetches `/config.json` before bootstrap (`main.ts`); `appConfig` is a
factory. The dev default (`public/config.json`) points at `localhost:8180`; the Docker image bakes
the compose value (`keycloak:8080`). One build, per-environment OIDC authority.
- **e2e runs inside the compose network.** `infra/run-e2e-check.sh` runs Playwright in a container on
`cg`, so the browser reaches Keycloak as `keycloak:8080` — the **same issuer** the BFF validates
against (resolves the browser-vs-container mismatch, ADR-0010). It uses the official
`mcr.microsoft.com/playwright:<version>` image with browsers pre-baked, rather than downloading
~150 MB of Chromium on every run (issue #73) — the image tag is kept in lockstep with
`tests/e2e/package.json`'s `@playwright/test` version. The spec is copied in (`docker cp`), not
mounted, so it leaves nothing root-owned on the host. Wired as `verify-e2e` in the `verify-stack`
CI job.
- **e2e treats the portal origin as secure.** In-network the portal is served over plain HTTP on a
non-localhost origin (`http://self-service`), which is **not a secure context**, so Web Crypto
(`crypto.subtle`) is unavailable. angular-auth-oidc-client needs it for the PKCE code challenge, so
`authorize()` throws and the login redirect never fires. Production runs behind HTTPS where this is
a non-issue; rather than terminate TLS in the throwaway stack, the Playwright config passes
`--unsafely-treat-insecure-origin-as-secure` (honoured only by the full `channel: 'chromium'`
build, not the default headless-shell). This emulates the production HTTPS secure context without
touching the app or its production config.
- `tests/e2e` is a standalone Playwright project (its own `package.json`), not an Nx project — it's a
live-stack check like the other `verify-*` runners, not part of the `frontend` unit lane.
## Openbaar Register portal (S-09, #10)
- **Anonymous, no auth.** The openbaar register is a public read, so `apps/openbaar` has no
`angular-auth-oidc-client`, no interceptor, and no `config.json` — `main.ts` bootstraps `appConfig`
directly with just `provideHttpClient` + `provideRouter`. This is the deliberate contrast to
self-service and keeps the app trivially cacheable/CDN-able.
- **Same-origin via nginx, like self-service.** The compose `openbaar` image serves the built app and
reverse-proxies `/openbaar` to the BFF; the api-client's relative calls stay same-origin (no CORS).
Served on `:8141`, health-checked over IPv4 (`127.0.0.1`), no Keycloak dependency.
- **Public-safe by construction.** The portal only ever sees the BFF's `OpenbaarProjection.PublicView`
(id + status); `bsn`/`naam` never leave the BFF. The e2e asserts the bsn never renders.
- **Loads on open, filters on search.** `RegisterPage` fetches the full register on construction and
re-queries `/openbaar/register?q=` on search — no client-side filtering, the BFF owns the query.

View File

@@ -1,9 +1,11 @@
# CI runbook — Gitea Actions # CI runbook — Gitea Actions
> **Status: active.** The workflow `.gitea/workflows/ci.yaml` runs on Gitea's > **Status: no runner yet → run CI locally with `make ci`.** The workflow
> hosted `ubuntu-latest` runner — no self-hosted runner required. > `.gitea/workflows/ci.yaml` is in place, but the pipeline cannot go green until a
> **`make ci` is still the local gate** — it runs the exact same checks > self-hosted `respellion-linux` runner is registered against the Gitea instance.
> (the workflow calls the same `make` targets). > Until then, **`make ci` is the gate** — it runs the exact same checks locally
> (the workflow calls the same `make` targets). Issue **#30 (S-00-c)** stays open
> until CI is verified green on a runner.
## The pipeline ## The pipeline
@@ -15,102 +17,23 @@ and CI cannot drift:
|---|---|---| |---|---|---|
| `lint` | `make lint``dotnet format … --verify-no-changes` | .NET 10 SDK | | `lint` | `make lint``dotnet format … --verify-no-changes` | .NET 10 SDK |
| `build` | `make build``dotnet build … -c Release` | .NET 10 SDK | | `build` | `make build``dotnet build … -c Release` | .NET 10 SDK |
| `unit` | `make unit``dotnet test … -c Release --filter "Category!=Integration"` | .NET 10 SDK | | `unit` | `make unit``dotnet test … -c Release` | .NET 10 SDK |
| `mutation` | `make mutation``dotnet tool restore``dotnet stryker` (ACL); uploads the HTML report as an artifact | .NET 10 SDK | | `compose-smoke` | `make smoke` → compose up `--wait``curl /health``down` | container engine + compose v2 |
| `verify-stack` | the single live-stack stage — steps: `make verify-up` (full stack up + health, the DoD smoke) → `make verify-acl` (ACL ↔ OpenZaak) → `make verify-nrc` (OpenZaak → NRC delivery) → `make down` | container engine + egress (base images, nuget, `selectielijst.openzaak.nl`) |
> **Why one `verify-stack` job, not three.** The single self-hosted runner runs jobs
> **sequentially**, so booting OpenZaak once (instead of once per check) is the
> cheapest layout (issue #58). It subsumes the old `integration`, `notifications`, and
> `compose-smoke` jobs — the bring-up step *is* the "compose up reaches green health"
> gate. No `setup-dotnet`: the ACL test runs in a built image and every check reaches
> services by **container IP** (the runner can't reach published ports — see
> [gitea-actions-gotchas.md §5/§6](gitea-actions-gotchas.md)).
All `uses:` references are absolute, tag-pinned URLs (`https://github.com/actions/checkout@v4`, All `uses:` references are absolute, tag-pinned URLs (`https://github.com/actions/checkout@v4`,
`https://github.com/actions/setup-dotnet@v4`) per CLAUDE.md §8.7 and §15 — Gitea `https://github.com/actions/setup-dotnet@v4`) per CLAUDE.md §8.7 and §15 — Gitea
Actions resolves them from GitHub. Actions resolves them from GitHub.
> **`verify-stack` runs on a containerized runner.** Workspace bind mounts do
> **not** reach the sibling containers Compose starts, so config/assets are
> streamed into external named volumes via `docker cp` (`infra/seed-config.sh`),
> and the upstream images are used verbatim (no build). If you add a service that
> needs a repo file at runtime, seed it the same way — don't bind-mount it. Note:
> bare `docker compose up` no longer self-seeds; use `make up`. See
> [gitea-actions-gotchas.md](gitea-actions-gotchas.md).
## Mutation testing (the ratchet)
The `mutation` job enforces test *strength*, not just coverage (CLAUDE.md §5).
[Stryker.NET](https://stryker-mutator.io/docs/stryker-net/) is pinned as a local
dotnet tool (`.config/dotnet-tools.json`), so it runs identically locally and in CI:
```bash
make mutation # dotnet tool restore + dotnet stryker on the ACL
```
Config lives in [`services/acl/stryker-config.json`](../../services/acl/stryker-config.json).
It runs in **solution mode** against `Acl.slnx`, mutating the two projects under test
(`Acl.Application`, `Acl.Infrastructure`); `Acl.Api` has no tests and is skipped.
**Baseline (the ratchet):** the ACL is the first service with branching logic, so it
sets the repo-wide baseline. Observed score **95%**; enforced `break` threshold **90%**
(one-mutant headroom over the ~20-mutant surface). Stryker exits non-zero — failing the
job — when the score drops below `break`. Per §5 the baseline only moves **up**, and only
as a slice's stated outcome; never lower it. New services add their own mutation run as
they gain logic.
The HTML report is written to `services/acl/StrykerOutput/<timestamp>/reports/` (git-ignored);
open it to see survived vs. killed mutants.
In CI the `mutation` job publishes that report as the **`acl-mutation-report`** artifact
(download it from the run's summary page). The upload step uses `if: always()`, so the
report is available even when the ratchet *fails* — which is exactly when you want to inspect
the survivors. It is the repo's first use of `actions/upload-artifact`, pinned to **`@v3`**:
`@v4` refuses to run on Gitea (its `@actions/artifact` v2 library blocks any non-github.com
server as "GHES"), while `@v3` speaks the artifact protocol Gitea implements. See
[gitea-actions-gotchas.md §4](gitea-actions-gotchas.md) (§15).
## Running the stack locally without `make` (Windows / Docker Desktop)
`make` and the bash helpers assume a Unix shell. To bring the whole stack up on a
machine without them (e.g. Windows + Docker Desktop), use the **local compose
file**, which bind-mounts the config instead of seeding volumes — so it needs no
`make`, no seed step, and no bash:
```bash
docker compose -f infra/docker-compose.local.yml up -d --build # any engine
docker compose -f infra/docker-compose.local.yml up -d --build --wait # Docker Desktop (Compose v2)
docker compose -f infra/docker-compose.local.yml down --volumes
```
On Linux/macOS the same thing is wrapped as `make local` / `make local-down`.
`infra/docker-compose.local.yml` mirrors the canonical `infra/docker-compose.yml`
but swaps the external config volumes for bind mounts — valid locally because a
local daemon can see the working directory (the seed/volume dance only exists for
the containerized CI runner). Keep the two files in sync.
## Running CI locally (`make ci`) ## Running CI locally (`make ci`)
`make ci` runs the exact same checks as the pipeline — handy to run before pushing: Until the runner exists, run the full pipeline yourself before pushing:
```bash ```bash
make ci # lint + build + unit + mutation + verify — mirrors the pipeline make ci # lint + build + unit + smoke — what the pipeline runs
make lint # or a single stage make lint # or a single stage
make mutation # Stryker.NET ratchet on the ACL make smoke # compose up --wait, curl /health, tear down
make verify # the live-stack stage: full stack up once → ACL + NRC checks → down
``` ```
> **`make verify`** mirrors the CI `verify-stack` job: it boots the full stack once and
> runs both the ACL ↔ OpenZaak and OpenZaak → NRC checks against it. For fast,
> single-concern local iteration use a lighter throwaway stack instead:
>
> ```bash
> make integration # ACL ↔ OpenZaak only (no NRC)
> make verify-notifications # OpenZaak → NRC delivery only
> ```
**Prerequisites:** .NET 10 SDK, a container engine with Compose v2, and `curl`. **Prerequisites:** .NET 10 SDK, a container engine with Compose v2, and `curl`.
On a **rootless Podman** box (the default dev setup here), the `smoke` target needs On a **rootless Podman** box (the default dev setup here), the `smoke` target needs
@@ -126,26 +49,56 @@ The Makefile auto-points `DOCKER_HOST` at `/run/user/$(id -u)/podman/podman.sock
when that socket exists and `DOCKER_HOST` is unset, so `make smoke` "just works" when that socket exists and `DOCKER_HOST` is unset, so `make smoke` "just works"
locally while leaving real Docker hosts / CI runners untouched. locally while leaving real Docker hosts / CI runners untouched.
## Runner: `ubuntu-latest` ## Runner: `respellion-linux`
All jobs run on Gitea's hosted **`ubuntu-latest`** runner — no self-hosted runner The single self-hosted runner label this repo targets is **`respellion-linux`**
setup is required. The hosted runner ships with Docker and Docker Compose v2, so (declared here per §15). It is intended to run **co-located on the Gitea server**
`make smoke` (`docker compose … up --wait`) works without extra configuration. (`git.labs.respellion.tech` / `46.224.220.37`) so CI is durable and independent of
any developer machine.
If Gitea's hosted runners are unavailable and a self-hosted fallback is needed, ### Host prerequisites
register an `act_runner` with the `ubuntu-latest` label:
The runner executes jobs in **host mode** (see registration below), so the host
must have, on `PATH`:
- .NET 10 SDK (or let `setup-dotnet` install it into the runner tool cache)
- A container engine with Compose v2 — Docker, or Podman with the Docker-compatible
socket and the `docker-compose` provider (as configured on the dev box)
- `curl`
### Install & register `act_runner` (on the Gitea server)
```bash ```bash
# 1. Install the binary (pick the version matching the Gitea release line)
VER=0.2.11 VER=0.2.11
curl -fsSL -o /usr/local/bin/act_runner \ curl -fsSL -o /usr/local/bin/act_runner \
"https://dl.gitea.com/act_runner/${VER}/act_runner-${VER}-linux-amd64" "https://dl.gitea.com/act_runner/${VER}/act_runner-${VER}-linux-amd64"
chmod +x /usr/local/bin/act_runner chmod +x /usr/local/bin/act_runner
# 2. Obtain a registration token from the Gitea UI:
# Site Administration → Actions → Runners → "Create new Runner" (instance-level)
# (or Repo → Settings → Actions → Runners for a repo-scoped runner)
# 3. Register with the respellion-linux label in HOST execution mode.
# The ":host" suffix means jobs run directly on the host shell, so
# `docker compose` in compose-smoke uses the host engine (no docker-in-docker).
act_runner register --no-interactive \ act_runner register --no-interactive \
--instance https://git.labs.respellion.tech \ --instance https://git.labs.respellion.tech \
--token <REGISTRATION_TOKEN> \ --token <REGISTRATION_TOKEN> \
--name respellion-ci-1 \ --name respellion-ci-1 \
--labels "ubuntu-latest:docker://node:20-bookworm" --labels "respellion-linux:host"
# 4. Run it (foreground to verify, then install as a systemd service)
act_runner daemon act_runner daemon
``` ```
Verify in the Gitea UI (Actions → Runners) that `respellion-ci-1` shows **Idle**,
then re-run the `CI` workflow; all four jobs should pass.
## Security note
A self-hosted runner in **host mode** executes workflow code directly on the Gitea
server host. Anyone who can push a workflow can run code there. This is acceptable
for a **private lab** instance with trusted contributors. For anything
internet-facing, switch to container/VM isolation (`--labels "respellion-linux:docker://..."`)
or a dedicated runner host, and gate workflow runs on approval for outside PRs.

View File

@@ -1,40 +0,0 @@
# Flowable runbook
Flowable (`infra/flowable/docker-compose.yml`) runs the **flowable-rest** engine on
Postgres. The `workflows/registratie.bpmn` model is deployed via the REST API at boot by
the `flowable-init` container. Host port **:8090**; REST API under
`http://localhost:8090/flowable-rest/service/` (basic auth **rest-admin / test**, dev only).
## The model — `registratie`
A minimal "Registratie ontvangen" process: **start → external-worker task
`OpenZaakAanmaken` → end**. The external task is where the Workflow Client / ACL will
later create the zaak in OpenZaak (S-04/S-05); for now a started instance parks there.
## Quick test (`make`)
```bash
make flowable-up # start engine + deploy registratie.bpmn on boot
make flowable-smoke # start + verify a new instance waits on the external task
make flowable-down # stop + wipe
```
`make flowable-smoke` runs `infra/flowable/verify.py`, which:
1. waits for the `registratie` process definition to be deployed,
2. starts an instance and asserts it did **not** end immediately,
3. asserts an execution is parked at activity **`OpenZaakAanmaken`**,
4. deletes the test instance.
## Notes
- **Deploy on boot** is idempotent: `flowable-init` skips if a deployment named
`registratie` already exists (so restarts on the same volume don't pile up versions).
- **Dev creds:** `rest-admin` / `test`. Override via the flowable-rest app config for
anything beyond local dev.
- **Image** `flowable/flowable-rest:latest` — pin a tag when stabilising.
- Start an instance by hand:
```bash
curl -s -u rest-admin:test -H 'Content-Type: application/json' \
-d '{"processDefinitionKey":"registratie"}' \
http://localhost:8090/flowable-rest/service/runtime/process-instances
```

View File

@@ -1,198 +0,0 @@
# Gitea Actions gotchas
How our CI (Gitea Actions on the hosted **`ubuntu-latest`** runner) differs from a
local run, and the workarounds in this repo. Referenced by `CLAUDE.md` §8.7/§15.
**One root cause sits under most of this:** the runner executes the job **inside a
container**, so when a step runs `docker compose up`, Compose starts the stack as
**sibling containers** on the host's daemon. Anything that assumes the job and
those containers share a filesystem — or a `localhost` — breaks.
| Gotcha | Fix | Lives in |
|---|---|---|
| Bind-mounted config arrives empty | `docker cp` config into external volumes | `infra/seed-config.sh` |
| `docker compose up --wait` is unsupported / flaky | poll health with `docker inspect` | `infra/wait-healthy.sh` |
| `pg_isready` passes before PostGIS is ready | add a `PostGIS_Version()` probe | the db healthchecks |
| `upload-artifact@v4` fails ("not supported on GHES") | pin `@v3` | `.gitea/workflows/ci.yaml` (`mutation` job) |
| `upload-artifact@v3` fails with "Artifact service responded with 500" | mark the upload `continue-on-error: true` (server-side; issue #62) | `.gitea/workflows/ci.yaml` (`mutation` job) |
---
## 1. Bind mounts don't reach the containers
**Symptom** — green locally, but `compose-smoke` fails with:
```
oz-init-1 | CommandError: Yaml file `/app/setup_configuration/data.yaml` does not exist.
```
Migrations run fine; only the step that reads a *mounted* file fails. The same
trap hits `nrc-init`, `flowable-init`, and `keycloak`.
**Why** — a relative bind mount like `./openzaak/setup_configuration:/app/...` is
resolved by Compose to a path *inside the job container*
(`/workspace/.../setup_configuration`). The daemon then looks for that path on
*its own host*, doesn't find it, and mounts an **empty directory**. (It works on a
runner that executes jobs on the host — which is why moving to `ubuntu-latest`
exposed it.)
**Fix** — use the upstream images verbatim (no build) and stream config into
**external named volumes** with `docker cp`, which copies over the Docker API and
so works wherever the daemon runs. `infra/seed-config.sh` creates each volume,
mounts it in a throwaway helper, and copies the files in:
| Asset | Volume | Mounted at |
|---|---|---|
| OpenZaak `data.yaml` | `rr-oz-config` | `oz-init:/app/setup_configuration` |
| Keycloak realms | `rr-kc-realms` | `keycloak:/opt/keycloak/data/import` |
| `registratie.bpmn` | `rr-fl-bpmn` | `flowable-init:/work` |
The volumes are `external: true` with fixed names, so they resolve identically
under docker compose and podman-compose. `make` seeds before every `up`; `make
down` removes them. (Open Notificaties needs nothing — `nrc-init` migrates only.)
**Consequence — bare `docker compose up` can't self-seed external volumes:**
- **CI / Linux / macOS:** `make up` or `make smoke` (seed, then start).
- **No-make / Windows:** `infra/docker-compose.local.yml` — a twin stack that
**bind-mounts** the config instead. Bind mounts are fine *locally* because a
local daemon can see your working directory, so
`docker compose -f infra/docker-compose.local.yml up -d` just works.
**Why not the obvious alternatives**
- *Bake config into an image* (incl. an inline Dockerfile) — `docker compose up`
would then work unaided, but it's a build; we wanted the upstream images as-is.
- *Compose `configs:` with inline `content`* — Compose writes a client-side temp
file and bind-mounts it, hitting the exact same problem.
- *A host-executing runner* — bind mounts would work with zero seeding, but it
reintroduces a self-hosted runner and undoes the move to `ubuntu-latest`.
---
## 2. Readiness: poll health, don't use `--wait`
`docker compose up --wait` looks ideal but fails us three ways:
- **podman-compose doesn't implement it** (`unrecognized arguments: --wait`) — so
it would break local dev.
- A project-wide `--wait` **treats a one-shot exiting `0` as a failure** unless
something `depends_on` it with `service_completed_successfully`. `flowable-init`
deploys the BPMN and exits with no dependant, so `--wait` fails the moment it
does — last line `container infra-flowable-init-1 exited (0)`.
- The containerized runner **can't reach published host ports**, so an external
`curl localhost:8080/health` can't work either.
**Fix**`infra/wait-healthy.sh` polls each durable service (`openzaak nrc-web
acl bff`, listed as `WAIT_SVCS` in the `Makefile`) with `docker ps` + `docker
inspect '{{.State.Health.Status}}'` until it reports `healthy`. It uses only
primitives both runtimes support, reads the **in-container** healthcheck (no host
port needed), and ignores the one-shots (they only need to have run).
`WAIT_TIMEOUT` defaults to 420 s — enough for the cold OpenZaak migrate (~90 s)
plus app start.
---
## 3. `pg_isready` passes before PostGIS is ready
`pg_isready` succeeds as soon as the TCP port is open — *before* the
`postgis/postgis` image has finished running `CREATE EXTENSION postgis`. An init
container that starts migrating in that window can fail on a missing PostGIS. So
the db healthchecks add a `SELECT PostGIS_Version()` probe, making dependents wait
for the extension, not just the port.
---
## 4. `actions/upload-artifact@v4` refuses to run on Gitea
**Symptom** — the `mutation` job's `make mutation` step passes (95% score), but the
upload step right after it fails the job:
```
::error::@actions/artifact v2.0.0+, upload-artifact@v4+ and download-artifact@v4+
are not currently supported on GHES.
❌ Failure - Main https://github.com/actions/upload-artifact@v4
```
**Why**`upload-artifact@v4` bundles `@actions/artifact` v2, which inspects the
server URL and **hard-aborts on anything that isn't `github.com`**, treating Gitea
as an unsupported GitHub Enterprise Server. The check fires regardless of whether
the Gitea server can actually store artifacts (1.24+ can). It is the *action*, not
the server, that refuses.
**Fix** — pin **`actions/upload-artifact@v3`** (and `download-artifact@v3` if ever
needed). v3 uses the older artifact protocol that Gitea implements, and has no GHES
guard. Inputs are the same (`name`, `path`, `if-no-files-found`), so it is a drop-in
swap. Do **not** bump to `@v4` until act_runner advertises github.com-compatible
artifact support.
**Second failure mode — the server's artifact backend returns 500.** Even on the
correctly-pinned `@v3`, uploads can fail with:
```
Create Artifact Container - Attempt 5 of 5 failed with error: Artifact service responded with 500
::error::Create Artifact Container failed: Artifact service responded with 500
```
This is the **Gitea server's** artifact storage failing (not the action's GHES guard),
so it is outside the repo's control. Because the `mutation` job's upload steps run with
`if: always()`, that 500 would fail the job even though the ratchet passed. **Fix:** mark
the uploads `continue-on-error: true` (issue #62). The mutation *gate* is the Stryker
ratchet — `make mutation`'s exit code fails the job on a real regression — so the report
upload is best-effort: when the server's artifact storage is restored, reports publish
again with no workflow change.
---
## 5. A runner process can't reach a service container's published port
**Symptom** — green locally, but a CI step that runs *on the runner* and talks to a
compose service over `localhost` fails. The ACL integration test's seed died with:
```
OpenZaak ready (000)
urllib.error.URLError: <urlopen error [Errno 111] Connection refused>
make: *** [Makefile:114: integration] Error 1
```
OpenZaak was demonstrably up — uwsgi had been serving for ~2 minutes — yet
`curl`/`urllib` to `localhost:8000` from the runner were refused the whole time.
**Why** — the same sibling-container split as §1. Compose starts the stack via the
host daemon, so `ports: ["8000:8000"]` publishes to the *daemon host*, not to the job
container. From the runner, `localhost:8000` has nothing listening. (`make smoke`
sidesteps this by polling readiness via `docker inspect` (§2), never a service port.)
**Fix** — don't talk to service ports from the runner. Either check state via `docker
inspect` (health), or run the client **inside the compose network** so it reaches the
service by name (`http://openzaak:8000`). For a test/seed that needs the repo's own
code, deliver it via a **built image** (not a bind mount — §1), then
`docker run --network <stack>_cg …`.
**Applied**`make integration` (ADR-0006) and `make verify-notifications` (ADR-0007)
do exactly this: they run the seed/test/driver as containers on the stack network and
reach services by **container IP** (see §6).
---
## 6. OpenZaak / NRC reject single-label hosts in URLs
**Symptom** — talking to OpenZaak or NRC by compose **service name** fails where a URL
is validated: catalogus/zaaktype filters, the zaak `zaaktype` URL, and abonnement
`callbackUrl` come back `400 "Voer een geldige URL in."` — even though the host
resolves and is reachable.
**Why** — these apps validate URLs with Django's `URLValidator`, which rejects a
**single-label** host like `openzaak` or `nrc-web` (no dot, and not `localhost`).
`localhost` passes (so it's invisible in host-port-based local runs); in-network the
reality is a service name or an IPv4 literal — and only the IP passes.
**Fix** — in-network tooling reaches OpenZaak/NRC by **container IP**
(`docker inspect -f '{{range .NetworkSettings.Networks}}{{.IPAddress}}{{end}}'`), not
service name; the notif verify harness also registers the sink callback by IP.
(`infra/run-acl-integration.sh`, `infra/run-notification-check.sh`.)
**Related — abonnement callbacks must enforce auth.** NRC probes a callback when an
abonnement is registered and refuses it (`no-auth-on-callback-url`) unless it returns
**401** without the configured `Authorization`. The verify sink
(`infra/notification-sink.py`) enforces a bearer token for exactly this reason.

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@@ -1,37 +0,0 @@
# Keycloak runbook
Keycloak (`infra/keycloak/docker-compose.yml`) runs in dev mode with four realms
imported at boot from `infra/keycloak/realms/`: **digid**, **eherkenning**, **eidas**,
**medewerker**. It mocks the Dutch identity brokers so portals can do real OIDC logins
locally. Host port **:8180**.
## Quick test (`make`)
```bash
make keycloak-up # start Keycloak + import realms (~30-60s first boot)
make keycloak-smoke # start + verify every realm logs in and returns its claim
make keycloak-down # stop + wipe
```
`make keycloak-smoke` runs `infra/keycloak/check_realms.py`, which does a password-grant
login per realm and asserts the identifying claim:
| Realm | User | Claim asserted |
|---|---|---|
| digid | jan-burger | `bsn` |
| eherkenning | acme-ondernemer | `kvk` |
| eidas | pierre-dupont | `eidas_id` |
| medewerker | merel-behandelaar | role `behandelaar` |
All test users / credentials are in [../synthetic-data.md](../synthetic-data.md).
## Notes
- **Admin console:** <http://localhost:8180/> — `admin` / `admin` (dev only).
- **Client `big-portal`** is public with `standardFlowEnabled` (browser redirect login)
*and* `directAccessGrantsEnabled` (password grant, used by the smoke test).
- **Dev store:** in-memory H2 via `start-dev`; realms re-import on each boot, so changes
made in the admin UI don't persist. Edit the realm JSONs to make durable changes.
- **Image** pinned to `quay.io/keycloak/keycloak:26.1`.
- Claims are injected by OIDC protocol mappers on `big-portal` (user attribute → token
claim); `medewerker` roles come through `realm_access.roles`.

View File

@@ -1,44 +0,0 @@
# Open Notificaties (NRC) runbook
The Open Notificaties stack (`infra/opennotificaties/docker-compose.yml`) is a lean
adaptation of the upstream dev compose: PostGIS db, redis (also the Celery broker), a
one-shot migrate-init, the API, and a celery worker. It shares the **`cg`** Docker
network with the OpenZaak stack so the two can reach each other by service name.
NRC is published on host **:8001** (OpenZaak holds :8000).
## Quick test (`make`) — both platforms together
```bash
make stack-up # OpenZaak + Open Notificaties on the shared network
make stack-smoke # start both + assert reachable (OZ 403/302/200, NRC 302)
make stack-down # stop + wipe both
```
`make stack-smoke` runs `docker compose -f infra/openzaak/... -f infra/opennotificaties/... up -d`
and asserts:
| Check | Expected |
|---|---|
| OpenZaak `GET /zaken/api/v1/zaken` (no JWT) | 403 (auth enforced) |
| OpenZaak `GET /admin/` | 302 |
| Open Notificaties `GET /admin/` | 302 |
NRC admin UI: <http://localhost:8001/admin/> (dev superuser **admin / admin**).
## Notification wiring is deferred to S-06
Both platforms are **up and reachable**, but OpenZaak→NRC notification *delivery* is not
wired yet, and OpenZaak still runs with `NOTIFICATIONS_DISABLED=true`. The bidirectional
auth wiring (NRC `setup_configuration`: Services + Authorization to OpenZaak's
Autorisaties API + JWT secrets + Kanalen + Abonnementen; OpenZaak's NotificationConfig)
lands with **S-06 (Event Subscriber)** — the slice that actually consumes events. NRC's
`setup_configuration/data.yaml` is intentionally minimal (migrations only) until then.
This matches S-01's acceptance, which asks only that the platforms *come up in compose*
and a health check confirms them reachable.
## Prerequisites
Same rootless-Podman setup as the rest of the repo — see [ci.md](ci.md) and
[openzaak.md](openzaak.md). `systemctl --user start podman.socket` once per session.

View File

@@ -1,82 +0,0 @@
# OpenZaak runbook
The OpenZaak stack (`infra/openzaak/docker-compose.yml`) is a lean adaptation of the
upstream open-zaak dev compose: PostGIS db, redis, a one-shot init that runs
migrations, the OpenZaak API, and a celery worker.
## Quick test (`make`)
```bash
make openzaak-up # start the stack (first run pulls images + migrates: 1-3 min)
make openzaak-smoke # start + assert it's up with auth enforced (403/302/200)
make openzaak-seed # start + seed the BIG catalogus (idempotent)
make openzaak-down # stop and wipe data
```
## Seed the BIG catalogus
`make openzaak-seed` brings the stack up and runs `infra/openzaak/seed_catalogus.py`,
which creates (idempotently, via the ZTC API):
- catalogus **BIG**
- a lean **BIG-REGISTRATIE** zaaktype (concept; only schema-mandatory fields)
- a **bsn** eigenschap on it
then confirms the JWT client can list it. See **ADR-0002** for the design (why the
zaaktype stays a concept, why notifications are disabled, why the API not a fixture).
**JWT client** (provisioned declaratively by `setup_configuration/data.yaml`, **dev only**):
| | |
|---|---|
| client_id | `big-reference-seed` |
| secret | `insecure-dev-secret-change-me` |
| authorizations | `heeft_alle_autorisaties` (all) |
The seed mints a ZGW JWT (HS256) from these and calls `/catalogi/api/v1/...`.
`make openzaak-smoke` polls until the API responds, then asserts:
| Check | Expected |
|---|---|
| `GET /zaken/api/v1/zaken` (no JWT) | **403**`PermissionDenied` ZGW fout (auth enforced) |
| `GET /admin/` | **302** — admin login redirect |
| `GET /zaken/api/v1/` | **200** — ZGW API schema root |
> **403, not 401.** OpenZaak's ZGW APIs return `403 PermissionDenied` for a missing
> or invalid JWT. The S-01 acceptance text says "401" — that's inaccurate; 403 is the
> correct auth-enforced response.
The admin UI is at <http://localhost:8000/admin/>; the dev superuser is **admin /
admin** (from the compose env — dev only).
## Prerequisites (rootless Podman)
Same setup as the rest of the repo (see [ci.md](ci.md)):
```bash
systemctl --user start podman.socket # the Docker-API socket the shim talks to
```
The Makefile auto-points `DOCKER_HOST` at the Podman socket when it exists, so the
`make openzaak-*` targets work without extra env.
## Notes
- **Not in `make ci`.** The OpenZaak smoke is a separate, heavier check (large image
pull + migrations); it is intentionally kept out of `make ci` so the core gate
stays fast. Run `make openzaak-smoke` when you touch the OpenZaak stack.
- **Notifications disabled.** `NOTIFICATIONS_DISABLED=true` — otherwise ZTC writes 500
trying to notify. Open Notificaties is now up (see [opennotificaties.md](opennotificaties.md)),
but OZ→NRC delivery wiring + re-enabling lands with **S-06**.
- **Zaaktype is a concept**, not published (publishing needs roltypen/statustypen/
resultaattypen — beyond the lean seed). List with `?status=alles`.
- **Image tag.** Pinned to `openzaak/open-zaak:1.28.2` via `${OPENZAAK_TAG}` (bump
deliberately, not via `:latest`).
- **Config arrives via a volume, not a bind mount.** `setup_configuration/data.yaml`
is streamed into the external `rr-oz-config` volume by `infra/seed-config.sh`
(`docker cp`) and mounted at `/app/setup_configuration`, so the init container
finds it on Gitea's containerized CI runner too (bind mounts don't reach sibling
containers there). The image is the upstream `openzaak/open-zaak` verbatim — no
build. Run via `make openzaak-up` (seeds first). See
[gitea-actions-gotchas.md](gitea-actions-gotchas.md).

View File

@@ -1,35 +0,0 @@
# Synthetic data
All credentials here are **dev-only** synthetic test data — never real personal data,
never used outside local development.
## Keycloak realms (S-02)
Keycloak runs at <http://localhost:8180> (admin console: **admin / admin**). Four realms
are imported at boot from `infra/keycloak/realms/`. Each has a public OIDC client
**`big-portal`** (standard flow + direct access grants enabled, redirect URIs `*` for dev).
All test users share the password **`test123`**.
| Realm | Mimics | User | Identifying claim |
|---|---|---|---|
| `digid` | DigiD (burgers) | `jan-burger` | `bsn` = `123456782` |
| `eherkenning` | eHerkenning (bedrijven) | `acme-ondernemer` | `kvk` = `12345678` |
| `eidas` | eIDAS (EU) | `pierre-dupont` | `eidas_id` = `FR/NL/AB-1234-5678` |
| `medewerker` | Internal staff | `merel-behandelaar` | role `behandelaar` |
| `medewerker` | Internal staff | `tom-teamlead` | roles `behandelaar`, `teamlead` |
The identifying claims are injected via OIDC protocol mappers on `big-portal`
(user-attribute → token claim); `medewerker` roles appear in `realm_access.roles`.
## Get a token (for testing)
```bash
curl -s -X POST \
http://localhost:8180/realms/digid/protocol/openid-connect/token \
-d grant_type=password -d client_id=big-portal \
-d username=jan-burger -d password=test123 -d scope=openid | jq -r .access_token
```
Decode the JWT payload to see the `bsn` claim. `make keycloak-smoke` checks every realm
automatically.

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@@ -1,48 +0,0 @@
import nx from '@nx/eslint-plugin';
export default [
...nx.configs['flat/base'],
...nx.configs['flat/typescript'],
...nx.configs['flat/javascript'],
{
ignores: [
'**/dist',
'**/vite.config.*.timestamp*',
'**/vitest.config.*.timestamp*',
],
},
{
files: ['**/*.ts', '**/*.tsx', '**/*.js', '**/*.jsx'],
rules: {
'@nx/enforce-module-boundaries': [
'error',
{
enforceBuildableLibDependency: true,
allow: ['^.*/eslint(\\.base)?\\.config\\.[cm]?[jt]s$'],
// Permissive default — apps/libs are untagged for now. Introduce scope/type tags
// when the portal set grows (docs/frontend-decisions.md).
depConstraints: [
{
sourceTag: '*',
onlyDependOnLibsWithTags: ['*'],
},
],
},
],
},
},
{
files: [
'**/*.ts',
'**/*.tsx',
'**/*.cts',
'**/*.mts',
'**/*.js',
'**/*.jsx',
'**/*.cjs',
'**/*.mjs',
],
// Override or add rules here
rules: {},
},
];

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@@ -1,372 +0,0 @@
# LOCAL development stack — runs with a plain `docker compose up`, no make / no
# seed step / no bash. Use this on a local engine (Docker Desktop on Windows or
# macOS, or rootless Podman on Linux).
#
# docker compose -f infra/docker-compose.local.yml up -d --build # podman
# docker compose -f infra/docker-compose.local.yml up -d --build --wait # Docker Desktop
# docker compose -f infra/docker-compose.local.yml down --volumes
#
# It is identical to infra/docker-compose.yml EXCEPT that the three config inputs
# (OpenZaak data.yaml, Keycloak realms, Flowable BPMN) are **bind-mounted** from
# the repo instead of being streamed into external volumes by infra/seed-config.sh.
# Bind mounts work here because a local daemon can see your working directory —
# the seed dance only exists for the containerized CI runner, where it can't. See
# docs/runbooks/gitea-actions-gotchas.md.
#
# `infra/docker-compose.yml` remains the CI-canonical stack; keep the two in sync.
#
# Port map (host):
# 8000 OpenZaak · 8001 Open Notificaties · 8080 BFF · 8090 Flowable REST
# 8100 ACL · 8180 Keycloak (all admin: admin / admin — dev only)
services:
# ── OpenZaak (S-01) ──────────────────────────────────────────────────────
oz-db:
image: docker.io/postgis/postgis:17-3.5
environment:
POSTGRES_USER: openzaak
POSTGRES_PASSWORD: openzaak
POSTGRES_DB: openzaak
command: postgres -c max_connections=300
volumes:
- oz-db:/var/lib/postgresql/data
healthcheck:
test: ["CMD-SHELL", "pg_isready -U openzaak -d openzaak && psql -U openzaak -d openzaak -c 'SELECT PostGIS_Version();' -q 2>/dev/null"]
interval: 5s
timeout: 5s
retries: 30
start_period: 15s
networks: [cg]
oz-redis:
image: docker.io/library/redis:7
networks: [cg]
oz-init:
image: docker.io/openzaak/open-zaak:${OPENZAAK_TAG:-1.28.2}
environment: &oz-env
DJANGO_SETTINGS_MODULE: openzaak.conf.docker
SECRET_KEY: ${OZ_SECRET_KEY:-dev-only-not-for-production}
DB_HOST: oz-db
DB_NAME: openzaak
DB_USER: openzaak
DB_PASSWORD: openzaak
IS_HTTPS: "no"
ALLOWED_HOSTS: "*"
CACHE_DEFAULT: oz-redis:6379/0
CACHE_AXES: oz-redis:6379/0
CELERY_BROKER_URL: redis://oz-redis:6379/1
CELERY_RESULT_BACKEND: redis://oz-redis:6379/1
DISABLE_2FA: "true"
# Publish notifications to NRC (always present in this twin). See ADR-0007.
NOTIFICATIONS_DISABLED: "false"
OPENZAAK_SUPERUSER_USERNAME: admin
DJANGO_SUPERUSER_PASSWORD: admin
OPENZAAK_SUPERUSER_EMAIL: admin@localhost
RUN_SETUP_CONFIG: "true"
command: /setup_configuration.sh
# Bind mount (`:z` relabels for SELinux on Linux; a no-op on Docker Desktop).
volumes:
- ./openzaak/setup_configuration:/app/setup_configuration:ro,z
depends_on:
oz-db:
condition: service_healthy
oz-redis:
condition: service_started
networks: [cg]
openzaak:
image: docker.io/openzaak/open-zaak:${OPENZAAK_TAG:-1.28.2}
environment: *oz-env
healthcheck:
test: ["CMD", "python", "-c", "import requests,sys; sys.exit(0 if requests.head('http://localhost:8000/admin/').status_code in (200,302) else 1)"]
interval: 10s
timeout: 5s
retries: 10
start_period: 30s
ports:
- "8000:8000"
depends_on:
oz-init:
condition: service_completed_successfully
networks: [cg]
oz-celery:
image: docker.io/openzaak/open-zaak:${OPENZAAK_TAG:-1.28.2}
environment: *oz-env
command: /celery_worker.sh
depends_on:
oz-init:
condition: service_completed_successfully
networks: [cg]
# ── Open Notificaties / NRC (S-01-c) ─────────────────────────────────────
nrc-db:
image: docker.io/postgis/postgis:17-3.5
environment:
POSTGRES_USER: opennotificaties
POSTGRES_PASSWORD: opennotificaties
POSTGRES_DB: opennotificaties
command: postgres -c max_connections=300
volumes:
- nrc-db:/var/lib/postgresql/data
healthcheck:
test: ["CMD-SHELL", "pg_isready -U opennotificaties -d opennotificaties"]
interval: 5s
timeout: 3s
retries: 10
networks: [cg]
nrc-redis:
image: docker.io/library/redis:7
networks: [cg]
nrc-init:
# Migrations + setup_configuration (S-01-c): the JWT credential, Autorisaties-API
# delegation, and the `zaken` kanaal that let OpenZaak publish. Config is
# bind-mounted here (this twin is the local/no-make path). See ADR-0007.
image: docker.io/openzaak/open-notificaties:${OPENNOTIFICATIES_TAG:-1.16.1}
environment: &nrc-env
DJANGO_SETTINGS_MODULE: nrc.conf.docker
SECRET_KEY: ${NRC_SECRET_KEY:-dev-only-not-for-production}
DB_HOST: nrc-db
DB_NAME: opennotificaties
DB_USER: opennotificaties
DB_PASSWORD: opennotificaties
IS_HTTPS: "no"
ALLOWED_HOSTS: "*"
CACHE_DEFAULT: nrc-redis:6379/0
CACHE_AXES: nrc-redis:6379/0
CELERY_BROKER_URL: redis://nrc-redis:6379/1
CELERY_RESULT_BACKEND: redis://nrc-redis:6379/1
DISABLE_2FA: "true"
OPENNOTIFICATIES_SUPERUSER_USERNAME: admin
DJANGO_SUPERUSER_PASSWORD: admin
OPENNOTIFICATIES_SUPERUSER_EMAIL: admin@localhost
RUN_SETUP_CONFIG: "true"
NOTIFICATION_SEC_INTERVAL: "5"
command: /setup_configuration.sh
volumes:
- ./opennotificaties/setup_configuration:/app/setup_configuration:ro,z
depends_on:
nrc-db:
condition: service_healthy
nrc-redis:
condition: service_started
openzaak:
condition: service_healthy
networks: [cg]
nrc-web:
image: docker.io/openzaak/open-notificaties:${OPENNOTIFICATIES_TAG:-1.16.1}
environment: *nrc-env
healthcheck:
test: ["CMD", "python", "-c", "import requests,sys; sys.exit(0 if requests.head('http://localhost:8000/admin/').status_code in (200,302) else 1)"]
interval: 10s
timeout: 5s
retries: 10
start_period: 30s
ports:
- "8001:8000"
depends_on:
nrc-init:
condition: service_completed_successfully
networks: [cg]
nrc-celery:
image: docker.io/openzaak/open-notificaties:${OPENNOTIFICATIES_TAG:-1.16.1}
environment: *nrc-env
command: /celery_worker.sh
depends_on:
nrc-init:
condition: service_completed_successfully
networks: [cg]
# Celery beat drains scheduled notifications to subscribers — required for
# delivery, not optional. See ADR-0007.
nrc-beat:
image: docker.io/openzaak/open-notificaties:${OPENNOTIFICATIES_TAG:-1.16.1}
environment: *nrc-env
command: /celery_beat.sh
depends_on:
nrc-init:
condition: service_completed_successfully
networks: [cg]
# ── Keycloak (S-02) ──────────────────────────────────────────────────────
keycloak:
image: quay.io/keycloak/keycloak:26.1
command: ["start-dev", "--import-realm"]
environment:
KC_BOOTSTRAP_ADMIN_USERNAME: admin
KC_BOOTSTRAP_ADMIN_PASSWORD: admin
KEYCLOAK_ADMIN: admin
KEYCLOAK_ADMIN_PASSWORD: admin
KC_HEALTH_ENABLED: "true"
KC_HTTP_ENABLED: "true"
ports:
- "8180:8080"
volumes:
- ./keycloak/realms:/opt/keycloak/data/import:ro,z
networks: [cg]
# ── Flowable (S-03) ──────────────────────────────────────────────────────
flowable-db:
image: docker.io/library/postgres:16
environment:
POSTGRES_USER: flowable
POSTGRES_PASSWORD: flowable
POSTGRES_DB: flowable
volumes:
- flowable-db:/var/lib/postgresql/data
healthcheck:
test: ["CMD-SHELL", "pg_isready -U flowable -d flowable"]
interval: 5s
timeout: 3s
retries: 10
networks: [cg]
flowable-rest:
image: docker.io/flowable/flowable-rest:latest
environment:
SPRING_DATASOURCE_DRIVER-CLASS-NAME: org.postgresql.Driver
SPRING_DATASOURCE_URL: jdbc:postgresql://flowable-db:5432/flowable
SPRING_DATASOURCE_USERNAME: flowable
SPRING_DATASOURCE_PASSWORD: flowable
ports:
- "8090:8080"
depends_on:
flowable-db:
condition: service_healthy
networks: [cg]
flowable-init:
image: docker.io/curlimages/curl:latest
restart: "no"
volumes:
- ../workflows/registratie.bpmn:/work/registratie.bpmn:ro,z
command:
- sh
- -c
- |
base=http://flowable-rest:8080/flowable-rest/service/repository/deployments
until curl -sf -u rest-admin:test "$$base" >/dev/null 2>&1; do echo "waiting for flowable-rest..."; sleep 3; done
if curl -s -u rest-admin:test "$$base?name=registratie" | grep -q '"name":"registratie"'; then
echo "registratie already deployed; skip"
else
curl -sf -u rest-admin:test -F 'file=@/work/registratie.bpmn;filename=registratie.bpmn' "$$base" >/dev/null && echo "deployed registratie"
fi
depends_on:
flowable-rest:
condition: service_started
networks: [cg]
# ── ACL ──────────────────────────────────────────────────────────────────
acl:
build:
context: ../services/acl
dockerfile: Dockerfile
image: register-referentie/acl:dev
environment:
Acl__OpenZaak__BaseUrl: http://openzaak:8000/
Acl__OpenZaak__ClientId: big-reference-seed
Acl__OpenZaak__Secret: insecure-dev-secret-change-me
Acl__Defaults__Bronorganisatie: "517439943"
Acl__Defaults__VerantwoordelijkeOrganisatie: "517439943"
Acl__Defaults__Vertrouwelijkheidaanduiding: openbaar
Acl__Defaults__ZaaktypeUrl: ${ACL_ZAAKTYPE_URL:-http://openzaak:8000/catalogi/api/v1/zaaktypen/00000000-0000-0000-0000-000000000000}
ports:
- "8100:8080"
healthcheck:
test: ["CMD", "curl", "-fsS", "http://localhost:8080/health"]
interval: 5s
timeout: 3s
retries: 5
start_period: 10s
depends_on:
openzaak:
condition: service_healthy
networks: [cg]
# ── BFF ──────────────────────────────────────────────────────────────────
bff:
build:
context: ../services/bff
dockerfile: Dockerfile
image: register-referentie/bff:dev
ports:
- "8080:8080"
healthcheck:
test: ["CMD", "curl", "-fsS", "http://localhost:8080/health"]
interval: 5s
timeout: 3s
retries: 5
start_period: 10s
networks: [cg]
# ── Read projection (S-06) ────────────────────────────────────────────────
projection-db:
image: docker.io/library/postgres:16
environment:
POSTGRES_USER: projection
POSTGRES_PASSWORD: projection
POSTGRES_DB: projection
volumes:
- projection-db:/var/lib/postgresql/data
healthcheck:
test: ["CMD-SHELL", "pg_isready -U projection -d projection"]
interval: 5s
timeout: 3s
retries: 10
networks: [cg]
event-subscriber:
build:
context: ..
dockerfile: services/event-subscriber/Dockerfile
image: register-referentie/event-subscriber:dev
environment:
ConnectionStrings__Projection: Host=projection-db;Database=projection;Username=projection;Password=projection
EventSubscriber__Webhook__AuthToken: ${NOTIFICATION_WEBHOOK_TOKEN:-Bearer big-reference-notifications}
ports:
- "8110:8080"
healthcheck:
test: ["CMD", "curl", "-fsS", "http://localhost:8080/health"]
interval: 5s
timeout: 3s
retries: 5
start_period: 15s
depends_on:
projection-db:
condition: service_healthy
networks: [cg]
projection-api:
build:
context: ..
dockerfile: services/projection-api/Dockerfile
image: register-referentie/projection-api:dev
environment:
ConnectionStrings__Projection: Host=projection-db;Database=projection;Username=projection;Password=projection
ports:
- "8120:8080"
healthcheck:
test: ["CMD", "curl", "-fsS", "http://localhost:8080/health"]
interval: 5s
timeout: 3s
retries: 5
start_period: 15s
depends_on:
projection-db:
condition: service_healthy
networks: [cg]
volumes:
oz-db:
nrc-db:
flowable-db:
projection-db:
networks:
cg:

View File

@@ -1,356 +1,14 @@
# Development stack — boots all infra services plus the ACL and BFF. # Local development stack. Grows service-by-service with each slice.
# # S-00-b: the placeholder BFF with a /health check.
# Consolidates infra/openzaak/, infra/opennotificaties/, infra/keycloak/,
# and infra/flowable/ and adds the ACL and BFF services.
#
# Port map (host):
# 8000 OpenZaak ZGW API (admin: admin / admin)
# 8001 Open Notificaties (admin: admin / admin)
# 8080 BFF GET /health → Healthy
# 8090 Flowable REST http://localhost:8090/flowable-rest/service/
# 8100 ACL GET /health → Healthy POST /zaken
# 8110 Event Subscriber GET /health → Healthy POST /notifications
# 8120 projection-api GET /health → Healthy GET /register
# 8180 Keycloak (admin: admin / admin)
# #
# docker compose -f infra/docker-compose.yml up -d --build --wait # docker compose -f infra/docker-compose.yml up -d --build --wait
# # curl http://localhost:8080/health # -> Healthy
# After first boot, seed the BIG catalogus and note the zaaktype URL:
# python infra/openzaak/seed_catalogus.py
# Then set ACL_ZAAKTYPE_URL in a .env file or your shell and re-up the acl
# service:
# export ACL_ZAAKTYPE_URL=http://openzaak:8000/catalogi/api/v1/zaaktypen/<uuid>
# docker compose -f infra/docker-compose.yml up -d acl
services: services:
# ── OpenZaak (S-01) ──────────────────────────────────────────────────────
oz-db:
image: docker.io/postgis/postgis:17-3.5
environment:
POSTGRES_USER: openzaak
POSTGRES_PASSWORD: openzaak
POSTGRES_DB: openzaak
command: postgres -c max_connections=300
volumes:
- oz-db:/var/lib/postgresql/data
healthcheck:
# pg_isready only checks TCP; the second clause verifies PostGIS is installed
# so oz-init migrations can safely start (avoids race on cold container start).
test: ["CMD-SHELL", "pg_isready -U openzaak -d openzaak && psql -U openzaak -d openzaak -c 'SELECT PostGIS_Version();' -q 2>/dev/null"]
interval: 5s
timeout: 5s
retries: 30
start_period: 15s
networks: [cg]
oz-redis:
image: docker.io/library/redis:7
networks: [cg]
oz-init:
image: docker.io/openzaak/open-zaak:${OPENZAAK_TAG:-1.28.2}
environment: &oz-env
DJANGO_SETTINGS_MODULE: openzaak.conf.docker
SECRET_KEY: ${OZ_SECRET_KEY:-dev-only-not-for-production}
DB_HOST: oz-db
DB_NAME: openzaak
DB_USER: openzaak
DB_PASSWORD: openzaak
IS_HTTPS: "no"
ALLOWED_HOSTS: "*"
CACHE_DEFAULT: oz-redis:6379/0
CACHE_AXES: oz-redis:6379/0
CELERY_BROKER_URL: redis://oz-redis:6379/1
CELERY_RESULT_BACKEND: redis://oz-redis:6379/1
DISABLE_2FA: "true"
# Publish notifications to NRC (always present in this full stack). The NRC
# service + notifications_config are provisioned by setup_configuration
# (infra/openzaak/setup_configuration/data.yaml). See ADR-0007 / S-01-c.
NOTIFICATIONS_DISABLED: "false"
OPENZAAK_SUPERUSER_USERNAME: admin
DJANGO_SUPERUSER_PASSWORD: admin
OPENZAAK_SUPERUSER_EMAIL: admin@localhost
RUN_SETUP_CONFIG: "true"
command: /setup_configuration.sh
# data.yaml is streamed into this external volume by infra/seed-config.sh
# before start (bind mounts don't reach sibling containers on the CI runner).
volumes:
- oz-config:/app/setup_configuration:ro
depends_on:
oz-db:
condition: service_healthy
oz-redis:
condition: service_started
networks: [cg]
openzaak:
image: docker.io/openzaak/open-zaak:${OPENZAAK_TAG:-1.28.2}
environment: *oz-env
healthcheck:
test: ["CMD", "python", "-c", "import requests,sys; sys.exit(0 if requests.head('http://localhost:8000/admin/').status_code in (200,302) else 1)"]
interval: 10s
timeout: 5s
retries: 10
start_period: 30s
ports:
- "8000:8000"
depends_on:
oz-init:
condition: service_completed_successfully
networks: [cg]
oz-celery:
image: docker.io/openzaak/open-zaak:${OPENZAAK_TAG:-1.28.2}
environment: *oz-env
command: /celery_worker.sh
depends_on:
oz-init:
condition: service_completed_successfully
networks: [cg]
# ── Open Notificaties / NRC (S-01-c) ─────────────────────────────────────
nrc-db:
image: docker.io/postgis/postgis:17-3.5
environment:
POSTGRES_USER: opennotificaties
POSTGRES_PASSWORD: opennotificaties
POSTGRES_DB: opennotificaties
command: postgres -c max_connections=300
volumes:
- nrc-db:/var/lib/postgresql/data
healthcheck:
test: ["CMD-SHELL", "pg_isready -U opennotificaties -d opennotificaties"]
interval: 5s
timeout: 3s
retries: 10
networks: [cg]
nrc-redis:
image: docker.io/library/redis:7
networks: [cg]
nrc-init:
# Plain base image — nrc-init runs migrations only (see command below), so it
# needs no baked config.
image: docker.io/openzaak/open-notificaties:${OPENNOTIFICATIES_TAG:-1.16.1}
environment: &nrc-env
DJANGO_SETTINGS_MODULE: nrc.conf.docker
SECRET_KEY: ${NRC_SECRET_KEY:-dev-only-not-for-production}
DB_HOST: nrc-db
DB_NAME: opennotificaties
DB_USER: opennotificaties
DB_PASSWORD: opennotificaties
IS_HTTPS: "no"
ALLOWED_HOSTS: "*"
CACHE_DEFAULT: nrc-redis:6379/0
CACHE_AXES: nrc-redis:6379/0
CELERY_BROKER_URL: redis://nrc-redis:6379/1
CELERY_RESULT_BACKEND: redis://nrc-redis:6379/1
DISABLE_2FA: "true"
OPENNOTIFICATIES_SUPERUSER_USERNAME: admin
DJANGO_SUPERUSER_PASSWORD: admin
OPENNOTIFICATIES_SUPERUSER_EMAIL: admin@localhost
RUN_SETUP_CONFIG: "true"
# nrc-beat fires `execute_notifications` this often to drain scheduled
# notifications to subscribers (upstream default 20s). See ADR-0007.
NOTIFICATION_SEC_INTERVAL: "5"
# Runs migrations + setup_configuration (S-01-c): the JWT credential, the
# Autorisaties-API delegation, and the `zaken` kanaal that let OpenZaak publish.
# data.yaml is streamed into rr-nrc-config by infra/seed-config.sh (bind mounts
# don't reach sibling containers on the CI runner). See data.yaml + ADR-0007.
command: /setup_configuration.sh
volumes:
- nrc-config:/app/setup_configuration:ro
depends_on:
nrc-db:
condition: service_healthy
nrc-redis:
condition: service_started
openzaak:
condition: service_healthy
networks: [cg]
nrc-web:
image: docker.io/openzaak/open-notificaties:${OPENNOTIFICATIES_TAG:-1.16.1}
environment: *nrc-env
healthcheck:
test: ["CMD", "python", "-c", "import requests,sys; sys.exit(0 if requests.head('http://localhost:8000/admin/').status_code in (200,302) else 1)"]
interval: 10s
timeout: 5s
retries: 10
start_period: 30s
ports:
- "8001:8000"
depends_on:
nrc-init:
condition: service_completed_successfully
networks: [cg]
nrc-celery:
image: docker.io/openzaak/open-notificaties:${OPENNOTIFICATIES_TAG:-1.16.1}
environment: *nrc-env
command: /celery_worker.sh
depends_on:
nrc-init:
condition: service_completed_successfully
networks: [cg]
# Celery beat drains the ScheduledNotification rows the API creates on publish
# and hands them to the worker. Without it, notifications are accepted but never
# delivered to subscribers — required, not optional. See ADR-0007.
nrc-beat:
image: docker.io/openzaak/open-notificaties:${OPENNOTIFICATIES_TAG:-1.16.1}
environment: *nrc-env
command: /celery_beat.sh
depends_on:
nrc-init:
condition: service_completed_successfully
networks: [cg]
# ── Keycloak (S-02) ──────────────────────────────────────────────────────
keycloak:
image: quay.io/keycloak/keycloak:26.1
command: ["start-dev", "--import-realm"]
environment:
KC_BOOTSTRAP_ADMIN_USERNAME: admin
KC_BOOTSTRAP_ADMIN_PASSWORD: admin
KEYCLOAK_ADMIN: admin
KEYCLOAK_ADMIN_PASSWORD: admin
KC_HEALTH_ENABLED: "true"
KC_HTTP_ENABLED: "true"
ports:
- "8180:8080"
# realm exports are streamed into this external volume by infra/seed-config.sh.
volumes:
- kc-realms:/opt/keycloak/data/import:ro
networks: [cg]
# ── Flowable (S-03) ──────────────────────────────────────────────────────
flowable-db:
image: docker.io/library/postgres:16
environment:
POSTGRES_USER: flowable
POSTGRES_PASSWORD: flowable
POSTGRES_DB: flowable
volumes:
- flowable-db:/var/lib/postgresql/data
healthcheck:
test: ["CMD-SHELL", "pg_isready -U flowable -d flowable"]
interval: 5s
timeout: 3s
retries: 10
networks: [cg]
flowable-rest:
image: docker.io/flowable/flowable-rest:latest
environment:
SPRING_DATASOURCE_DRIVER-CLASS-NAME: org.postgresql.Driver
SPRING_DATASOURCE_URL: jdbc:postgresql://flowable-db:5432/flowable
SPRING_DATASOURCE_USERNAME: flowable
SPRING_DATASOURCE_PASSWORD: flowable
ports:
- "8090:8080"
depends_on:
flowable-db:
condition: service_healthy
networks: [cg]
flowable-init:
image: docker.io/curlimages/curl:latest
restart: "no"
# registratie.bpmn is streamed into this external volume by infra/seed-config.sh.
volumes:
- fl-bpmn:/work:ro
command:
- sh
- -c
- |
base=http://flowable-rest:8080/flowable-rest/service/repository/deployments
until curl -sf -u rest-admin:test "$$base" >/dev/null 2>&1; do echo "waiting for flowable-rest..."; sleep 3; done
if curl -s -u rest-admin:test "$$base?name=registratie" | grep -q '"name":"registratie"'; then
echo "registratie already deployed; skip"
else
curl -sf -u rest-admin:test -F 'file=@/work/registratie.bpmn;filename=registratie.bpmn' "$$base" >/dev/null && echo "deployed registratie"
fi
depends_on:
flowable-rest:
condition: service_started
networks: [cg]
# ── ACL ──────────────────────────────────────────────────────────────────
acl:
build:
context: ../services/acl
dockerfile: Dockerfile
image: register-referentie/acl:dev
environment:
# Overridable so verify-domain can point the ACL at the same OpenZaak host that
# owns the seeded zaaktype URL (host-consistent zaak creation, ADR-0009).
Acl__OpenZaak__BaseUrl: ${ACL_OPENZAAK_BASEURL:-http://openzaak:8000/}
Acl__OpenZaak__ClientId: big-reference-seed
Acl__OpenZaak__Secret: insecure-dev-secret-change-me
Acl__Defaults__Bronorganisatie: "517439943"
Acl__Defaults__VerantwoordelijkeOrganisatie: "517439943"
Acl__Defaults__Vertrouwelijkheidaanduiding: openbaar
# Override with the real zaaktype URL after running seed_catalogus.py.
Acl__Defaults__ZaaktypeUrl: ${ACL_ZAAKTYPE_URL:-http://openzaak:8000/catalogi/api/v1/zaaktypen/00000000-0000-0000-0000-000000000000}
ports:
- "8100:8080"
healthcheck:
test: ["CMD", "curl", "-fsS", "http://localhost:8080/health"]
interval: 5s
timeout: 3s
retries: 5
start_period: 10s
depends_on:
openzaak:
condition: service_healthy
networks: [cg]
# ── BIG Domain Service (S-05) ──────────────────────────────────────────────
# Orchestrates a registration: POST /registrations creates the aggregate and
# starts the registratie Flowable process; a hosted worker acquires the
# OpenZaakAanmaken job, opens a zaak via the ACL and completes it (ADR-0009).
# Talks only to Flowable (Workflow Client, §8.2) and the ACL (§8.1).
domain:
build:
context: ../services/domain
dockerfile: Dockerfile
image: register-referentie/domain:dev
environment:
Flowable__BaseUrl: http://flowable-rest:8080/flowable-rest/
Flowable__Username: rest-admin
Flowable__Password: test
Acl__BaseUrl: http://acl:8080/
ports:
- "8130:8080"
healthcheck:
test: ["CMD", "curl", "-fsS", "http://localhost:8080/health"]
interval: 5s
timeout: 3s
retries: 5
start_period: 10s
depends_on:
acl:
condition: service_healthy
flowable-init:
condition: service_completed_successfully
networks: [cg]
# ── BFF ──────────────────────────────────────────────────────────────────
bff: bff:
build: build:
context: ../services/bff context: ../services/bff
dockerfile: Dockerfile dockerfile: Dockerfile
image: register-referentie/bff:dev image: register-referentie/bff:dev
environment:
# The BFF is the portals' only backend; it validates digid tokens and fans out (ADR-0010).
# Keycloak (start-dev) derives the issuer from the request host, so the BFF authority and the
# verify token request both use keycloak:8080 to keep the issuer consistent.
Keycloak__Authority: http://keycloak:8080/realms/digid
Downstream__Domain__BaseUrl: http://domain:8080/
Downstream__Projection__BaseUrl: http://projection-api:8080/
ports: ports:
- "8080:8080" - "8080:8080"
healthcheck: healthcheck:
@@ -359,146 +17,3 @@ services:
timeout: 3s timeout: 3s
retries: 5 retries: 5
start_period: 10s start_period: 10s
depends_on:
domain:
condition: service_healthy
projection-api:
condition: service_healthy
keycloak:
condition: service_started
networks: [cg]
# ── Read projection (S-06) ────────────────────────────────────────────────
# One Postgres DB backing the rebuildable read projection (PRD §8.4): the Event
# Subscriber writes it, projection-api reads it. See ADR-0008.
projection-db:
image: docker.io/library/postgres:16
environment:
POSTGRES_USER: projection
POSTGRES_PASSWORD: projection
POSTGRES_DB: projection
volumes:
- projection-db:/var/lib/postgresql/data
healthcheck:
test: ["CMD-SHELL", "pg_isready -U projection -d projection"]
interval: 5s
timeout: 3s
retries: 10
networks: [cg]
# Consumes NRC notifications (abonnement callback) and projects zaak-created events
# into register_projection. Build context is the repo root: it shares the read model
# in services/projection-api/Projection.ReadModel.
event-subscriber:
build:
context: ..
dockerfile: services/event-subscriber/Dockerfile
image: register-referentie/event-subscriber:dev
environment:
ConnectionStrings__Projection: Host=projection-db;Database=projection;Username=projection;Password=projection
# The bearer Open Notificaties must present on the abonnement callback. NRC's
# registration probe expects a 401 without it (ADR-0007). Dev-only token.
EventSubscriber__Webhook__AuthToken: ${NOTIFICATION_WEBHOOK_TOKEN:-Bearer big-reference-notifications}
ports:
- "8110:8080"
healthcheck:
test: ["CMD", "curl", "-fsS", "http://localhost:8080/health"]
interval: 5s
timeout: 3s
retries: 5
start_period: 15s
depends_on:
projection-db:
condition: service_healthy
networks: [cg]
# The read side of the projection. Shares Projection.ReadModel, so build context is root.
projection-api:
build:
context: ..
dockerfile: services/projection-api/Dockerfile
image: register-referentie/projection-api:dev
environment:
ConnectionStrings__Projection: Host=projection-db;Database=projection;Username=projection;Password=projection
ports:
- "8120:8080"
healthcheck:
test: ["CMD", "curl", "-fsS", "http://localhost:8080/health"]
interval: 5s
timeout: 3s
retries: 5
start_period: 15s
depends_on:
projection-db:
condition: service_healthy
networks: [cg]
# ── Self-Service portal (S-08d) ────────────────────────────────────────────
# nginx serves the Angular app and reverse-proxies /self-service + /openbaar to the BFF
# (same-origin, no CORS). The Playwright e2e drives it inside this network so the DigiD
# token issuer (keycloak:8080) matches the BFF's authority (ADR-0010).
self-service:
build:
context: ..
dockerfile: apps/self-service/Dockerfile
image: register-referentie/self-service:dev
ports:
- "8140:80"
healthcheck:
# 127.0.0.1, not localhost: nginx listens on IPv4 only, but localhost resolves to ::1 first.
test: ["CMD-SHELL", "wget -q -O /dev/null http://127.0.0.1/ || exit 1"]
interval: 5s
timeout: 3s
retries: 5
start_period: 10s
depends_on:
bff:
condition: service_healthy
keycloak:
condition: service_started
networks: [cg]
# The openbaar (public) register portal: nginx serves the Angular app and reverse-proxies
# /openbaar to the BFF. Anonymous — no DigiD, no Keycloak dependency (S-09).
openbaar:
build:
context: ..
dockerfile: apps/openbaar/Dockerfile
image: register-referentie/openbaar:dev
ports:
- "8141:80"
healthcheck:
# 127.0.0.1, not localhost: nginx listens on IPv4 only, but localhost resolves to ::1 first.
test: ["CMD-SHELL", "wget -q -O /dev/null http://127.0.0.1/ || exit 1"]
interval: 5s
timeout: 3s
retries: 5
start_period: 10s
depends_on:
bff:
condition: service_healthy
networks: [cg]
volumes:
oz-db:
nrc-db:
flowable-db:
projection-db:
# Config volumes — created and populated out-of-band by infra/seed-config.sh
# (docker cp), because bind mounts don't reach sibling containers on the CI
# runner. `external` keeps the names deterministic; the seed step manages them.
oz-config:
external: true
name: rr-oz-config
nrc-config:
external: true
name: rr-nrc-config
kc-realms:
external: true
name: rr-kc-realms
fl-bpmn:
external: true
name: rr-fl-bpmn
networks:
cg:

View File

@@ -1,70 +0,0 @@
# Flowable (S-03): the flowable-rest engine on Postgres.
# The registratie.bpmn model is deployed via the REST API on startup by flowable-init.
#
# docker compose -f infra/flowable/docker-compose.yml up -d
# # REST API (basic auth) under http://localhost:8090/flowable-rest/service/
#
# Host port 8090 (8000/8001/8080/8180 are taken by OpenZaak/NRC/BFF/Keycloak).
services:
flowable-db:
image: docker.io/library/postgres:16
environment:
POSTGRES_USER: flowable
POSTGRES_PASSWORD: flowable
POSTGRES_DB: flowable
volumes:
- flowable-db:/var/lib/postgresql/data
healthcheck:
test: ["CMD-SHELL", "pg_isready -U flowable -d flowable"]
interval: 5s
timeout: 3s
retries: 10
networks: [cg]
flowable-rest:
image: docker.io/flowable/flowable-rest:latest
environment:
SPRING_DATASOURCE_DRIVER-CLASS-NAME: org.postgresql.Driver
SPRING_DATASOURCE_URL: jdbc:postgresql://flowable-db:5432/flowable
SPRING_DATASOURCE_USERNAME: flowable
SPRING_DATASOURCE_PASSWORD: flowable
ports:
- "8090:8080"
depends_on:
flowable-db:
condition: service_healthy
networks: [cg]
# Deploys workflows/registratie.bpmn via the REST API once flowable-rest is up.
# Idempotent: skips if a deployment named "registratie" already exists.
flowable-init:
image: docker.io/curlimages/curl:latest
restart: "no"
# registratie.bpmn is streamed into this external volume by infra/seed-config.sh.
volumes:
- fl-bpmn:/work:ro
command:
- sh
- -c
- |
base=http://flowable-rest:8080/flowable-rest/service/repository/deployments
until curl -sf -u rest-admin:test "$$base" >/dev/null 2>&1; do echo "waiting for flowable-rest..."; sleep 3; done
if curl -s -u rest-admin:test "$$base?name=registratie" | grep -q '"name":"registratie"'; then
echo "registratie already deployed; skip"
else
curl -sf -u rest-admin:test -F 'file=@/work/registratie.bpmn;filename=registratie.bpmn' "$$base" >/dev/null && echo "deployed registratie"
fi
depends_on:
flowable-rest:
condition: service_started
networks: [cg]
volumes:
flowable-db:
# populated out-of-band by infra/seed-config.sh (docker cp) — see that script.
fl-bpmn:
external: true
name: rr-fl-bpmn
networks:
cg:

View File

@@ -1,54 +0,0 @@
#!/usr/bin/env python3
"""Smoke-check Flowable: the registratie process is deployed, and starting an
instance parks it on the OpenZaakAanmaken external task. Stdlib only.
"""
import base64, json, sys, time, urllib.error, urllib.request
BASE = "http://localhost:8090/flowable-rest/service"
AUTH = "Basic " + base64.b64encode(b"rest-admin:test").decode()
def call(method, path, payload=None):
data = json.dumps(payload).encode() if payload is not None else None
req = urllib.request.Request(BASE + path, data=data, method=method, headers={
"Authorization": AUTH, "Content-Type": "application/json", "Accept": "application/json"})
with urllib.request.urlopen(req, timeout=30) as r:
return r.status, json.loads(r.read() or "null")
def main():
# 1. process definition deployed? (wait for the async init-container deploy)
defs = {"total": 0}
for _ in range(40):
_, defs = call("GET", "/repository/process-definitions?key=registratie")
if defs["total"] >= 1:
break
time.sleep(3)
assert defs["total"] >= 1, "registratie process definition not deployed"
print(f"process definition 'registratie' deployed (total={defs['total']})")
# 2. start an instance
st, pi = call("POST", "/runtime/process-instances", {"processDefinitionKey": "registratie"})
assert st == 201, f"start failed: {st} {pi}"
pid = pi["id"]
assert pi.get("ended") is False, "instance ended immediately — external task not reached"
print(f"started instance {pid} (ended={pi.get('ended')})")
# 3. waiting on the external task?
_, ex = call("GET", f"/runtime/executions?processInstanceId={pid}")
activities = [e.get("activityId") for e in ex["data"]]
assert "OpenZaakAanmaken" in activities, f"not waiting at OpenZaakAanmaken: {activities}"
print(f"instance is waiting at the external task: {activities}")
# 4. cleanup
try:
call("DELETE", f"/runtime/process-instances/{pid}")
print("cleaned up instance")
except urllib.error.HTTPError:
pass
print("flowable smoke OK")
if __name__ == "__main__":
main()

View File

@@ -1,60 +0,0 @@
#!/usr/bin/env python3
"""Smoke-check the Keycloak realms: each realm's OIDC login works (password grant)
and returns its expected identifying claim. Stdlib only. Exits non-zero on failure.
"""
import base64, json, sys, urllib.error, urllib.parse, urllib.request
BASE = "http://localhost:8180"
CLIENT = "big-portal"
PWD = "test123"
# realm, user, claim ("__roles__" => check realm_access.roles), expected-contains
CHECKS = [
("digid", "jan-burger", "bsn", "123456782"),
("eherkenning", "acme-ondernemer", "kvk", "12345678"),
("eidas", "pierre-dupont", "eidas_id", "FR/NL"),
("medewerker", "merel-behandelaar", "__roles__", "behandelaar"),
]
def decode(jwt):
p = jwt.split(".")[1]
p += "=" * (-len(p) % 4)
return json.loads(base64.urlsafe_b64decode(p))
def grant(realm, user):
data = urllib.parse.urlencode({
"grant_type": "password", "client_id": CLIENT,
"username": user, "password": PWD, "scope": "openid",
}).encode()
req = urllib.request.Request(
f"{BASE}/realms/{realm}/protocol/openid-connect/token", data=data,
headers={"Content-Type": "application/x-www-form-urlencoded"})
with urllib.request.urlopen(req, timeout=20) as r:
return json.loads(r.read())
def main():
ok = True
for realm, user, claim, expect in CHECKS:
try:
at = decode(grant(realm, user)["access_token"])
if claim == "__roles__":
val = at.get("realm_access", {}).get("roles", [])
good = expect in val
else:
val = at.get(claim)
good = val is not None and expect in str(val)
print(f"{realm:12} {user:18} login OK | {claim} = {val} "
f"[{'OK' if good else 'UNEXPECTED'}]")
ok = ok and good
except urllib.error.HTTPError as e:
ok = False
print(f"{realm:12} {user:18} LOGIN FAILED {e.code}: {e.read()[:200]!r}")
print("keycloak smoke OK" if ok else "keycloak smoke FAILED")
sys.exit(0 if ok else 1)
if __name__ == "__main__":
main()

View File

@@ -1,35 +0,0 @@
# Keycloak (S-02) with four pre-seeded realms imported at boot:
# digid · eherkenning · eidas · medewerker
# Dev mode, H2 in-memory store, realm JSONs imported from ./realms.
#
# docker compose -f infra/keycloak/docker-compose.yml up -d
# curl -s -o /dev/null -w '%{http_code}\n' \
# http://localhost:8180/realms/digid/.well-known/openid-configuration # -> 200
#
# Admin console: http://localhost:8180/ (admin / admin — dev only)
services:
keycloak:
image: quay.io/keycloak/keycloak:26.1
command: ["start-dev", "--import-realm"]
environment:
KC_BOOTSTRAP_ADMIN_USERNAME: admin
KC_BOOTSTRAP_ADMIN_PASSWORD: admin
# Older var names too, harmless on 26.x:
KEYCLOAK_ADMIN: admin
KEYCLOAK_ADMIN_PASSWORD: admin
KC_HEALTH_ENABLED: "true"
KC_HTTP_ENABLED: "true"
ports:
- "8180:8080"
# realm exports are streamed into this external volume by infra/seed-config.sh.
volumes:
- kc-realms:/opt/keycloak/data/import:ro
networks: [cg]
volumes:
kc-realms:
external: true
name: rr-kc-realms
networks:
cg:

View File

@@ -1,43 +0,0 @@
{
"realm": "digid",
"enabled": true,
"displayName": "Mock DigiD",
"clients": [
{
"clientId": "big-portal",
"enabled": true,
"publicClient": true,
"standardFlowEnabled": true,
"directAccessGrantsEnabled": true,
"redirectUris": ["*"],
"webOrigins": ["*"],
"protocolMappers": [
{
"name": "bsn",
"protocol": "openid-connect",
"protocolMapper": "oidc-usermodel-attribute-mapper",
"config": {
"user.attribute": "bsn",
"claim.name": "bsn",
"jsonType.label": "String",
"id.token.claim": "true",
"access.token.claim": "true",
"userinfo.token.claim": "true"
}
}
]
}
],
"users": [
{
"username": "jan-burger",
"enabled": true,
"firstName": "Jan",
"lastName": "Burger",
"email": "jan.burger@example.nl",
"emailVerified": true,
"credentials": [{ "type": "password", "value": "test123", "temporary": false }],
"attributes": { "bsn": ["123456782"] }
}
]
}

View File

@@ -1,43 +0,0 @@
{
"realm": "eherkenning",
"enabled": true,
"displayName": "Mock eHerkenning",
"clients": [
{
"clientId": "big-portal",
"enabled": true,
"publicClient": true,
"standardFlowEnabled": true,
"directAccessGrantsEnabled": true,
"redirectUris": ["*"],
"webOrigins": ["*"],
"protocolMappers": [
{
"name": "kvk",
"protocol": "openid-connect",
"protocolMapper": "oidc-usermodel-attribute-mapper",
"config": {
"user.attribute": "kvk",
"claim.name": "kvk",
"jsonType.label": "String",
"id.token.claim": "true",
"access.token.claim": "true",
"userinfo.token.claim": "true"
}
}
]
}
],
"users": [
{
"username": "acme-ondernemer",
"enabled": true,
"firstName": "Anita",
"lastName": "Ondernemer",
"email": "anita@acme.nl",
"emailVerified": true,
"credentials": [{ "type": "password", "value": "test123", "temporary": false }],
"attributes": { "kvk": ["12345678"] }
}
]
}

View File

@@ -1,43 +0,0 @@
{
"realm": "eidas",
"enabled": true,
"displayName": "Mock eIDAS",
"clients": [
{
"clientId": "big-portal",
"enabled": true,
"publicClient": true,
"standardFlowEnabled": true,
"directAccessGrantsEnabled": true,
"redirectUris": ["*"],
"webOrigins": ["*"],
"protocolMappers": [
{
"name": "eidas_id",
"protocol": "openid-connect",
"protocolMapper": "oidc-usermodel-attribute-mapper",
"config": {
"user.attribute": "eidas_id",
"claim.name": "eidas_id",
"jsonType.label": "String",
"id.token.claim": "true",
"access.token.claim": "true",
"userinfo.token.claim": "true"
}
}
]
}
],
"users": [
{
"username": "pierre-dupont",
"enabled": true,
"firstName": "Pierre",
"lastName": "Dupont",
"email": "pierre.dupont@example.fr",
"emailVerified": true,
"credentials": [{ "type": "password", "value": "test123", "temporary": false }],
"attributes": { "eidas_id": ["FR/NL/AB-1234-5678"] }
}
]
}

View File

@@ -1,44 +0,0 @@
{
"realm": "medewerker",
"enabled": true,
"displayName": "Medewerkers",
"roles": {
"realm": [
{ "name": "behandelaar", "description": "Behandelt registratieaanvragen" },
{ "name": "teamlead", "description": "Teamleider behandeling" }
]
},
"clients": [
{
"clientId": "big-portal",
"enabled": true,
"publicClient": true,
"standardFlowEnabled": true,
"directAccessGrantsEnabled": true,
"redirectUris": ["*"],
"webOrigins": ["*"]
}
],
"users": [
{
"username": "merel-behandelaar",
"enabled": true,
"firstName": "Merel",
"lastName": "Behandelaar",
"email": "merel@big.example.nl",
"emailVerified": true,
"credentials": [{ "type": "password", "value": "test123", "temporary": false }],
"realmRoles": ["behandelaar"]
},
{
"username": "tom-teamlead",
"enabled": true,
"firstName": "Tom",
"lastName": "Teamlead",
"email": "tom@big.example.nl",
"emailVerified": true,
"credentials": [{ "type": "password", "value": "test123", "temporary": false }],
"realmRoles": ["behandelaar", "teamlead"]
}
]
}

View File

@@ -1,39 +0,0 @@
#!/usr/bin/env python3
"""A throwaway webhook sink for verifying the OpenZaak → NRC notification path.
NRC delivers abonnement callbacks here as POSTs; each body is printed to stdout
(prefixed `NOTIFICATION `) so the verify harness can assert on `docker logs`.
NRC refuses to register an abonnement whose callback is unauthenticated
(`no-auth-on-callback`): when validating it sends a probe and expects the callback
to reject a request without the configured `Authorization` value. So this sink
enforces that header (EXPECTED_AUTH env) — 401 without it, 204 with it.
Stdlib only. Listens on :9000. See infra/verify-notifications.sh / S-01-c (#56).
"""
import http.server
import os
import sys
EXPECTED_AUTH = os.environ.get("EXPECTED_AUTH", "Bearer notification-sink-token")
class Handler(http.server.BaseHTTPRequestHandler):
def do_POST(self):
length = int(self.headers.get("content-length", 0))
body = self.rfile.read(length).decode("utf-8", "replace")
if self.headers.get("Authorization") != EXPECTED_AUTH:
self.send_response(401)
self.end_headers()
return
print("NOTIFICATION " + body, flush=True)
self.send_response(204)
self.end_headers()
def log_message(self, *args): # silence default request logging
pass
if __name__ == "__main__":
http.server.HTTPServer(("0.0.0.0", 9000), Handler).serve_forever()
sys.exit(0)

View File

@@ -1,120 +0,0 @@
# Open Notificaties (NRC) stack (S-01-c). Lean adaptation of the upstream dev compose:
# db (PostGIS) + redis (also the Celery broker) + migrate-init + the API + a celery worker.
#
# Shares the `cg` network with the OpenZaak stack so the two can reach each other.
# Run BOTH together (NRC needs OpenZaak's Autorisaties API for auth wiring):
#
# docker compose -f infra/openzaak/docker-compose.yml -f infra/opennotificaties/docker-compose.yml up -d
# curl -s -o /dev/null -w '%{http_code}\n' http://localhost:8001/admin/ # -> 302
#
# NRC is published on host :8001 (OpenZaak holds :8000).
services:
nrc-db:
image: docker.io/postgis/postgis:17-3.5
environment:
POSTGRES_USER: opennotificaties
POSTGRES_PASSWORD: opennotificaties
POSTGRES_DB: opennotificaties
command: postgres -c max_connections=300
volumes:
- nrc-db:/var/lib/postgresql/data
healthcheck:
# pg_isready only checks TCP; the second clause verifies PostGIS is installed
# so nrc-init migrations can safely start (avoids race on cold container start).
test: ["CMD-SHELL", "pg_isready -U opennotificaties -d opennotificaties && psql -U opennotificaties -d opennotificaties -c 'SELECT PostGIS_Version();' -q 2>/dev/null"]
interval: 5s
timeout: 5s
retries: 30
start_period: 15s
networks: [cg]
nrc-redis:
image: docker.io/library/redis:7
networks: [cg]
nrc-init:
# Plain base image — nrc-init runs migrations only (see command below).
image: docker.io/openzaak/open-notificaties:${OPENNOTIFICATIES_TAG:-1.16.1}
environment: &nrc-env
DJANGO_SETTINGS_MODULE: nrc.conf.docker
SECRET_KEY: ${NRC_SECRET_KEY:-dev-only-not-for-production}
DB_HOST: nrc-db
DB_NAME: opennotificaties
DB_USER: opennotificaties
DB_PASSWORD: opennotificaties
IS_HTTPS: "no"
ALLOWED_HOSTS: "*"
CACHE_DEFAULT: nrc-redis:6379/0
CACHE_AXES: nrc-redis:6379/0
CELERY_BROKER_URL: redis://nrc-redis:6379/1
CELERY_RESULT_BACKEND: redis://nrc-redis:6379/1
DISABLE_2FA: "true"
OPENNOTIFICATIES_SUPERUSER_USERNAME: admin
DJANGO_SUPERUSER_PASSWORD: admin
OPENNOTIFICATIES_SUPERUSER_EMAIL: admin@localhost
RUN_SETUP_CONFIG: "true"
# Delivery cadence: nrc-beat fires `execute_notifications` this often to drain
# scheduled notifications to subscribers. Upstream default is 20s; 5s keeps the
# walking-skeleton + the verify smoke responsive.
NOTIFICATION_SEC_INTERVAL: "5"
# Runs migrations + setup_configuration (S-01-c): the JWT credential, the
# Autorisaties-API delegation, and the `zaken` kanaal that let OpenZaak publish
# notifications. data.yaml is streamed into this external volume by
# infra/seed-config.sh (same pattern as oz-init). See data.yaml + ADR-0006.
command: /setup_configuration.sh
volumes:
- nrc-config:/app/setup_configuration:ro
depends_on:
nrc-db:
condition: service_healthy
nrc-redis:
condition: service_started
networks: [cg]
nrc-web:
image: docker.io/openzaak/open-notificaties:${OPENNOTIFICATIES_TAG:-1.16.1}
environment: *nrc-env
healthcheck:
test: ["CMD", "python", "-c", "import requests,sys; sys.exit(0 if requests.head('http://localhost:8000/admin/').status_code in (200,302) else 1)"]
interval: 10s
timeout: 5s
retries: 10
start_period: 30s
ports:
- "8001:8000"
depends_on:
nrc-init:
condition: service_completed_successfully
networks: [cg]
nrc-celery:
image: docker.io/openzaak/open-notificaties:${OPENNOTIFICATIES_TAG:-1.16.1}
environment: *nrc-env
command: /celery_worker.sh
depends_on:
nrc-init:
condition: service_completed_successfully
networks: [cg]
# Celery beat: periodically fires `execute_notifications`, which drains the
# ScheduledNotification rows the API creates on publish and hands them to the
# worker for delivery. Without beat, notifications are accepted but never
# delivered to subscribers — so it is required, not optional. See ADR-0007.
nrc-beat:
image: docker.io/openzaak/open-notificaties:${OPENNOTIFICATIES_TAG:-1.16.1}
environment: *nrc-env
command: /celery_beat.sh
depends_on:
nrc-init:
condition: service_completed_successfully
networks: [cg]
volumes:
nrc-db:
# populated out-of-band by infra/seed-config.sh (docker cp) — see that script.
nrc-config:
external: true
name: rr-nrc-config
networks:
cg:

View File

@@ -1,41 +0,0 @@
# Open Notificaties (NRC) setup_configuration (S-01-c, #56).
# Wires NRC so OpenZaak can publish notifications:
# - the JWT credential OpenZaak authenticates with,
# - delegation of authorization checks to OpenZaak's Autorisaties API (AC),
# - the `zaken` kanaal OpenZaak publishes zaak events on.
# Dev-only credentials — not for production. Steps from nrc.setup_configuration.
# 1. JWT credential NRC uses to verify the token OpenZaak presents.
vng_api_common_credentials_config_enable: true
vng_api_common_credentials:
items:
- identifier: big-reference-seed
secret: insecure-dev-secret-change-me
# 2. The Autorisaties API (OpenZaak's AC) NRC consults to authorize publishers.
zgw_consumers_config_enable: true
zgw_consumers:
services:
- identifier: openzaak-ac
label: OpenZaak Autorisaties API
api_type: ac
api_root: http://openzaak:8000/autorisaties/api/v1/
auth_type: zgw
client_id: big-reference-seed
secret: insecure-dev-secret-change-me
# 3. Delegate authorization to that AC.
autorisaties_api_config_enable: true
autorisaties_api:
authorizations_api_service_identifier: openzaak-ac
# 4. The kanaal OpenZaak publishes zaak events on.
notifications_kanalen_config_enable: true
notifications_kanalen_config:
items:
- naam: zaken
documentatie_link: https://github.com/VNG-Realisatie/gemma-zaken
filters:
- bronorganisatie
- zaaktype
- vertrouwelijkheidaanduiding

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@@ -1,104 +0,0 @@
# OpenZaak stack (S-01). Lean adaptation of the upstream open-zaak dev compose:
# db (PostGIS) + redis + a one-shot init (migrations) + the API + a celery worker.
# Dropped from upstream for leanness: nginx, celery-beat, flower, OTEL.
#
# docker compose -f infra/openzaak/docker-compose.yml up -d --wait
# curl -i http://localhost:8000/zaken/api/v1/zaken # -> 401 (auth required)
#
# NOTE: image pinned to a tag (not :latest) once a known-good tag is chosen; see
# the catalogus-design ADR. Using a tag var with a sensible default for now.
services:
oz-db:
image: docker.io/postgis/postgis:17-3.5
environment:
POSTGRES_USER: openzaak
POSTGRES_PASSWORD: openzaak
POSTGRES_DB: openzaak
command: postgres -c max_connections=300
volumes:
- oz-db:/var/lib/postgresql/data
healthcheck:
# pg_isready only checks TCP; the second clause verifies PostGIS is installed
# so oz-init migrations can safely start (avoids race on cold container start).
test: ["CMD-SHELL", "pg_isready -U openzaak -d openzaak && psql -U openzaak -d openzaak -c 'SELECT PostGIS_Version();' -q 2>/dev/null"]
interval: 5s
timeout: 5s
retries: 30
start_period: 15s
networks: [cg]
oz-redis:
image: docker.io/library/redis:7
networks: [cg]
oz-init:
image: docker.io/openzaak/open-zaak:${OPENZAAK_TAG:-1.28.2}
environment: &oz-env
DJANGO_SETTINGS_MODULE: openzaak.conf.docker
SECRET_KEY: ${OZ_SECRET_KEY:-dev-only-not-for-production}
DB_HOST: oz-db
DB_NAME: openzaak
DB_USER: openzaak
DB_PASSWORD: openzaak
IS_HTTPS: "no"
ALLOWED_HOSTS: "*"
CACHE_DEFAULT: oz-redis:6379/0
CACHE_AXES: oz-redis:6379/0
CELERY_BROKER_URL: redis://oz-redis:6379/1
CELERY_RESULT_BACKEND: redis://oz-redis:6379/1
DISABLE_2FA: "true"
# Notifications are OFF by default so OpenZaak-only bring-ups (openzaak-up,
# the ACL integration test) don't 500 trying to reach an absent NRC. When
# OpenZaak runs together with the NRC stack, set OZ_NOTIFICATIONS_DISABLED=false
# (make stack-up does) to publish; the NRC service + notifications_config that
# name it are provisioned by setup_configuration (data.yaml, S-01-c).
NOTIFICATIONS_DISABLED: "${OZ_NOTIFICATIONS_DISABLED:-true}"
OPENZAAK_SUPERUSER_USERNAME: admin
DJANGO_SUPERUSER_PASSWORD: admin
OPENZAAK_SUPERUSER_EMAIL: admin@localhost
RUN_SETUP_CONFIG: "true"
command: /setup_configuration.sh
# data.yaml is streamed into this external volume by infra/seed-config.sh.
volumes:
- oz-config:/app/setup_configuration:ro
depends_on:
oz-db:
condition: service_healthy
oz-redis:
condition: service_started
networks: [cg]
openzaak:
image: docker.io/openzaak/open-zaak:${OPENZAAK_TAG:-1.28.2}
environment: *oz-env
healthcheck:
test: ["CMD", "python", "-c", "import requests,sys; sys.exit(0 if requests.head('http://localhost:8000/admin/').status_code in (200,302) else 1)"]
interval: 10s
timeout: 5s
retries: 10
start_period: 30s
ports:
- "8000:8000"
depends_on:
oz-init:
condition: service_completed_successfully
networks: [cg]
oz-celery:
image: docker.io/openzaak/open-zaak:${OPENZAAK_TAG:-1.28.2}
environment: *oz-env
command: /celery_worker.sh
depends_on:
oz-init:
condition: service_completed_successfully
networks: [cg]
volumes:
oz-db:
# populated out-of-band by infra/seed-config.sh (docker cp) — see that script.
oz-config:
external: true
name: rr-oz-config
networks:
cg:

View File

@@ -1,221 +0,0 @@
#!/usr/bin/env python3
"""Idempotent seed of the BIG catalogus into OpenZaak via the ZTC API.
Creates (if absent):
- catalogus "BIG"
- a lean "BIG-registratie" zaaktype (only schema-mandatory fields)
- a "bsn" eigenschap on that zaaktype
- then publishes the zaaktype.
Auth uses the JWT client provisioned by setup_configuration (see ADR-0002).
Stdlib only — no pip deps. Re-running is safe (matches existing by identifier).
"""
import base64, hashlib, hmac, json, os, sys, time, urllib.error, urllib.request
BASE = os.environ.get("OZ_BASE", "http://localhost:8000")
CLIENT_ID = os.environ.get("OZ_CLIENT_ID", "big-reference-seed")
SECRET = os.environ.get("OZ_SECRET", "insecure-dev-secret-change-me")
ZTC = f"{BASE}/catalogi/api/v1"
RSIN = "517439943" # elfproef-valid test RSIN
# Opt-in: also publish the zaaktype so OpenZaak's Zaken API accepts a zaak against
# it (a concept zaaktype is rejected with `not-published`). Off by default — the
# S-01 compose seed keeps it a concept (ADR-0002). The ACL integration test
# (S-04a, #46) sets OZ_PUBLISH=1. Publishing requires ≥2 statustypen, ≥1 roltype
# and ≥1 resultaattype; the resultaattype is validated against the external
# Selectielijst reference API, so this path needs outbound access to it. See ADR-0006.
PUBLISH = os.environ.get("OZ_PUBLISH", "").lower() in ("1", "true", "yes")
SELECTIELIJST = os.environ.get(
"OZ_SELECTIELIJST", "https://selectielijst.openzaak.nl/api/v1").rstrip("/")
def token():
b64 = lambda b: base64.urlsafe_b64encode(b).rstrip(b"=")
hdr = {"alg": "HS256", "typ": "JWT"}
pl = {"iss": CLIENT_ID, "iat": int(time.time()), "client_id": CLIENT_ID,
"user_id": "seed", "user_representation": "seed"}
seg = b64(json.dumps(hdr, separators=(",", ":")).encode()) + b"." + \
b64(json.dumps(pl, separators=(",", ":")).encode())
sig = b64(hmac.new(SECRET.encode(), seg, hashlib.sha256).digest())
return (seg + b"." + sig).decode()
def api(method, path, body=None):
url = path if path.startswith("http") else f"{ZTC}{path}"
data = json.dumps(body).encode() if body is not None else None
req = urllib.request.Request(url, data=data, method=method, headers={
"Authorization": "Bearer " + token(),
"Content-Type": "application/json",
"Accept": "application/json",
})
try:
with urllib.request.urlopen(req, timeout=30) as r:
return r.status, json.loads(r.read() or "null")
except urllib.error.HTTPError as e:
return e.code, json.loads(e.read() or "null")
def find(path):
status, body = api("GET", path)
if status != 200:
sys.exit(f"GET {path} -> {status}: {body}")
return body.get("results", [])
def selectielijst(path):
"""GET the external Selectielijst reference API (no auth). Used only when publishing."""
req = urllib.request.Request(f"{SELECTIELIJST}{path}", headers={"Accept": "application/json"})
with urllib.request.urlopen(req, timeout=30) as r:
return json.loads(r.read())
def publish_zaaktype(zt):
"""Add the relations OpenZaak requires to publish, then publish (idempotent).
Publish validation (verified against OpenZaak 1.28.2) demands: ≥2 statustypen
(begin + eind), ≥1 roltype, ≥1 resultaattype. A resultaattype needs a
Selectielijst `selectielijstklasse` whose procestype matches the zaaktype's
`selectielijstProcestype`, plus a `resultaattypeomschrijving`.
"""
have_st = {s.get("volgnummer") for s in find(f"/statustypen?zaaktype={zt['url']}&status=alles")}
for volgnummer, omschrijving in [(1, "Ontvangen"), (2, "Afgehandeld")]:
if volgnummer not in have_st:
st, body = api("POST", "/statustypen", {
"omschrijving": omschrijving, "zaaktype": zt["url"], "volgnummer": volgnummer})
if st != 201:
sys.exit(f"create statustype {volgnummer} -> {st}: {json.dumps(body, indent=2)}")
print(f"create statustype {volgnummer} ({omschrijving})")
if find(f"/roltypen?zaaktype={zt['url']}&status=alles"):
print("skip roltype Aanvrager")
else:
st, body = api("POST", "/roltypen", {
"zaaktype": zt["url"], "omschrijving": "Aanvrager", "omschrijvingGeneriek": "initiator"})
if st != 201:
sys.exit(f"create roltype -> {st}: {json.dumps(body, indent=2)}")
print("create roltype Aanvrager")
if find(f"/resultaattypen?zaaktype={zt['url']}&status=alles"):
print("skip resultaattype Geregistreerd")
else:
resultaat = selectielijst("/resultaten?pageSize=1")["results"][0]
omschrijvingen = selectielijst("/resultaattypeomschrijvingen")
oms = (omschrijvingen if isinstance(omschrijvingen, list) else omschrijvingen["results"])[0]["url"]
# The selectielijstklasse and the zaaktype must share a procestype.
st, body = api("PATCH", zt["url"], {"selectielijstProcestype": resultaat["procesType"]})
if st != 200:
sys.exit(f"set procestype -> {st}: {json.dumps(body, indent=2)}")
st, body = api("POST", "/resultaattypen", {
"zaaktype": zt["url"], "omschrijving": "Geregistreerd",
"resultaattypeomschrijving": oms, "selectielijstklasse": resultaat["url"],
"archiefnominatie": "blijvend_bewaren",
"brondatumArchiefprocedure": {"afleidingswijze": "afgehandeld"},
})
if st != 201:
sys.exit(f"create resultaattype -> {st}: {json.dumps(body, indent=2)}")
print("create resultaattype Geregistreerd")
if zt.get("concept", True):
st, body = api("POST", f"{zt['url']}/publish")
if st != 200:
sys.exit(f"publish zaaktype -> {st}: {json.dumps(body, indent=2)}")
print(f"publish zaaktype BIG-REGISTRATIE ({zt['url']})")
else:
print("skip publish (already published)")
def main():
# 1. Catalogus
existing = [c for c in find(f"/catalogussen?domein=BIG") if c.get("domein") == "BIG"]
if existing:
cat = existing[0]
print(f"skip catalogus BIG ({cat['url']})")
else:
st, cat = api("POST", "/catalogussen", {
"domein": "BIG", "rsin": RSIN,
"contactpersoonBeheerNaam": "BIG Beheer",
})
if st != 201:
sys.exit(f"create catalogus -> {st}: {cat}")
print(f"create catalogus BIG ({cat['url']})")
# 2. Zaaktype (concept)
# status=alles so concept zaaktypen are matched too (else we'd duplicate).
zts = [z for z in find(f"/zaaktypen?catalogus={cat['url']}&status=alles")
if z.get("identificatie") == "BIG-REGISTRATIE"]
if zts:
zt = zts[0]
print(f"skip zaaktype BIG-REGISTRATIE ({zt['url']}) concept={zt.get('concept')}")
else:
st, zt = api("POST", "/zaaktypen", {
"identificatie": "BIG-REGISTRATIE",
"omschrijving": "BIG-registratie",
"vertrouwelijkheidaanduiding": "openbaar",
"doel": "Registratie van een zorgprofessional in het BIG-register",
"aanleiding": "Aanvraag tot registratie",
"indicatieInternOfExtern": "extern",
"handelingInitiator": "indienen",
"onderwerp": "BIG-registratie",
"handelingBehandelaar": "behandelen",
"doorlooptijd": "P30D",
"opschortingEnAanhoudingMogelijk": False,
"verlengingMogelijk": False,
"publicatieIndicatie": False,
"productenOfDiensten": [],
"referentieproces": {"naam": "BIG-registratie"},
"catalogus": cat["url"],
"besluittypen": [],
"gerelateerdeZaaktypen": [],
"beginGeldigheid": "2026-01-01",
"versiedatum": "2026-01-01",
"verantwoordelijke": RSIN,
})
if st != 201:
sys.exit(f"create zaaktype -> {st}: {json.dumps(zt, indent=2)}")
print(f"create zaaktype BIG-REGISTRATIE ({zt['url']})")
# 3. bsn eigenschap (only addable while concept)
eigs = [e for e in find(f"/eigenschappen?zaaktype={zt['url']}&status=alles")
if e.get("naam") == "bsn"]
if eigs:
print("skip eigenschap bsn")
elif zt.get("concept", True):
st, eig = api("POST", "/eigenschappen", {
"naam": "bsn",
"definitie": "Burgerservicenummer van de zorgprofessional",
"zaaktype": zt["url"],
"specificatie": {"groep": "aanvrager", "formaat": "tekst",
"lengte": "9", "kardinaliteit": "1", "waardenverzameling": []},
})
if st != 201:
sys.exit(f"create eigenschap -> {st}: {json.dumps(eig, indent=2)}")
print("create eigenschap bsn")
else:
print("warn zaaktype already published; cannot add bsn eigenschap")
# 4. Optionally publish. By default the zaaktype stays a concept: publishing
# requires roltypen, resultaattypen and statustypen, beyond the "lean /
# schema-mandatory" zaaktype S-01 asks for (ADR-0002). Set OZ_PUBLISH=1 to add
# those relations and publish — needed so a real zaak POST is accepted, which
# the ACL integration test (S-04a, #46) exercises. See ADR-0006.
if PUBLISH:
# Re-fetch: the bsn-eigenschap branch above may hold a stale concept flag.
zt = next(z for z in find(f"/zaaktypen?catalogus={cat['url']}&status=alles")
if z.get("identificatie") == "BIG-REGISTRATIE")
publish_zaaktype(zt)
# 5. Verify the JWT client can list the zaaktype (concepts included).
zaaktypen = find(f"/zaaktypen?catalogus={cat['url']}&status=alles")
names = [z.get("identificatie") for z in zaaktypen]
print(f"zaaktypen in BIG: {names}")
assert "BIG-REGISTRATIE" in names, "BIG-REGISTRATIE not listed"
state = "published" if PUBLISH else "concept"
# Machine-readable line so callers (e.g. infra/run-domain-check.sh) can capture the
# zaaktype URL to configure the ACL's default-fill (ADR-0003/0009).
zt_url = next(z["url"] for z in zaaktypen if z.get("identificatie") == "BIG-REGISTRATIE")
print(f"ZAAKTYPE_URL {zt_url}")
print(f"OK — BIG catalogus seeded (BIG-REGISTRATIE {state} + bsn eigenschap)")
if __name__ == "__main__":
main()

View File

@@ -1,41 +0,0 @@
# OpenZaak setup_configuration (idempotent, declarative).
# Provisions the JWT client the seed + ACL use to call OpenZaak's APIs.
# Dev-only credentials — not for production.
#
# Steps come from vng_api_common.contrib.setup_configuration (see ADR-0002).
vng_api_common_credentials_config_enable: true
vng_api_common_credentials:
items:
- identifier: big-reference-seed
secret: insecure-dev-secret-change-me
vng_api_common_applicaties_config_enable: true
vng_api_common_applicaties:
items:
# uuid must be given explicitly as a string (the step's auto-default is a
# UUID object that fails its own validation).
- uuid: "11111111-1111-4111-8111-111111111111"
client_ids:
- big-reference-seed
label: BIG reference seed client
heeft_alle_autorisaties: true
# ── OpenZaak → Open Notificaties (NRC) publishing (S-01-c, #56) ─────────────
# The NRC service OpenZaak posts notifications to, authenticating with the same
# big-reference-seed client (NRC verifies the JWT and authorizes it via the AC).
zgw_consumers_config_enable: true
zgw_consumers:
services:
- identifier: nrc
label: Open Notificaties
api_type: nrc
api_root: http://nrc-web:8000/api/v1/
auth_type: zgw
client_id: big-reference-seed
secret: insecure-dev-secret-change-me
# Point OpenZaak's notifications at that service. Requires NOTIFICATIONS_DISABLED=false.
notifications_config_enable: true
notifications_config:
notifications_api_service_identifier: nrc

View File

@@ -1,37 +0,0 @@
#!/usr/bin/env bash
#
# Run the ACL integration tests (Category=Integration) against the OpenZaak that is
# ALREADY running — works for any stack: oz-only (`make integration`), the standalone
# oz+nrc stack, or the full compose stack (the CI `verify-stack` job). Seeds a
# published BIG zaaktype (idempotent), then builds + runs the test image on the stack
# network, reaching OpenZaak by container IP (a single-label host isn't URL-valid;
# the runner can't reach published ports — see gitea-actions-gotchas.md §5/§6).
#
# Does NOT manage the stack lifecycle: the caller owns bring-up + teardown. Plain
# docker primitives only (docker/podman-portable). See ADR-0006.
set -euo pipefail
here="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
root="$(cd "$here/.." && pwd)"
# The OpenZaak API container, matched across compose projects + docker/podman naming
# (`<project>[-_]openzaak[-_]<n>`); the delimiters exclude oz-db / oz-redis / oz-init.
oz="$(docker ps -q --filter 'name=[-_]openzaak[-_]' | head -1)"
[ -n "$oz" ] || { echo "ERROR: no running OpenZaak container found — bring the stack up first" >&2; exit 1; }
net="$(docker inspect -f '{{range $k,$_ := .NetworkSettings.Networks}}{{$k}}{{"\n"}}{{end}}' "$oz" | head -1)"
oz_ip="$(docker inspect -f '{{range .NetworkSettings.Networks}}{{.IPAddress}}{{end}}' "$oz")"
oz_base="http://$oz_ip:8000"
echo ">> OpenZaak at $oz_base on network $net"
echo ">> seeding a published BIG zaaktype (idempotent)"
sid="$(docker create --network "$net" -e "OZ_BASE=$oz_base" -e OZ_PUBLISH=1 \
python:3-slim python /seed.py)"
docker cp "$here/openzaak/seed_catalogus.py" "$sid:/seed.py" >/dev/null
docker start -a "$sid"
docker rm -f "$sid" >/dev/null
echo ">> building the integration test image"
docker build -f "$root/services/acl/Dockerfile.integration" -t rr-acl-integration "$root/services/acl"
echo ">> running the ACL integration tests (inside the network)"
docker run --rm --network "$net" -e "OZ_BASE=$oz_base" rr-acl-integration

View File

@@ -1,58 +0,0 @@
#!/usr/bin/env bash
#
# Verify the BFF end-to-end (S-07) against an ALREADY-RUNNING full stack. The BFF is the portals'
# only backend (§8.3): it validates Keycloak digid tokens on the self-service submit and serves the
# openbaar register anonymously with only public-safe fields (ADR-0010).
#
# Checks, in-network (services reached by container IP; Keycloak by its service name so the token's
# host-derived issuer matches the BFF's authority — see the compose bff env and ADR-0010):
# 1. POST /self-service/registrations without a token -> 401
# 2. mint a real digid access token (direct grant) and POST it -> 202 (forwarded to the domain)
# 3. GET /openbaar/register (anonymous) -> 200 JSON array, never a bsn
#
# Does NOT manage the stack lifecycle (the caller owns bring-up + teardown). Plain docker primitives.
set -euo pipefail
ip() { docker inspect -f '{{range .NetworkSettings.Networks}}{{.IPAddress}}{{end}}' "$1"; }
bff="$(docker ps -q --filter 'name=[-_]bff[-_]' | head -1)"
kc="$(docker ps -q --filter 'name=keycloak' | head -1)"
[ -n "$bff" ] || { echo "ERROR: no running bff container — bring the stack up first" >&2; exit 1; }
[ -n "$kc" ] || { echo "ERROR: no running keycloak container — bring the stack up first" >&2; exit 1; }
net="$(docker inspect -f '{{range $k,$_ := .NetworkSettings.Networks}}{{$k}}{{"\n"}}{{end}}' "$bff" | head -1)"
bff_ip="$(ip "$bff")"
echo ">> bff=$bff_ip network=$net"
# Helper: run curl inside a throwaway container on the stack network (reaches services by name/IP).
net_curl() { docker run --rm --network "$net" curlimages/curl:latest "$@"; }
echo ">> 1. self-service submit without a token must be 401"
code="$(net_curl -s -o /dev/null -w '%{http_code}' -X POST "http://$bff_ip:8080/self-service/registrations" \
-H 'Content-Type: application/json' -d '{}')"
echo " -> $code"; [ "$code" = "401" ] || { echo "FAIL: expected 401, got $code" >&2; exit 1; }
echo ">> 2. minting a digid token (direct grant) via keycloak:8080 (host-consistent issuer)"
token=""
for _ in $(seq 1 20); do
token="$(net_curl -s -X POST "http://keycloak:8080/realms/digid/protocol/openid-connect/token" \
-H 'Content-Type: application/x-www-form-urlencoded' \
--data-urlencode 'grant_type=password' --data-urlencode 'client_id=big-portal' \
--data-urlencode 'username=jan-burger' --data-urlencode 'password=test123' \
| sed -n 's/.*"access_token":"\([^"]*\)".*/\1/p')"
[ -n "$token" ] && break
sleep 3
done
[ -n "$token" ] || { echo "FAIL: could not obtain a digid access token" >&2; exit 1; }
echo " -> got a token"
echo ">> 2b. self-service submit with the token must be 202"
code="$(net_curl -s -o /dev/null -w '%{http_code}' -X POST "http://$bff_ip:8080/self-service/registrations" \
-H "Authorization: Bearer $token" -H 'Content-Type: application/json' -d '{}')"
echo " -> $code"; [ "$code" = "202" ] || { echo "FAIL: expected 202, got $code" >&2; docker logs "$bff" 2>&1 | tail -15 >&2; exit 1; }
echo ">> 3. openbaar register (anonymous) must be 200 JSON, never a bsn"
body="$(net_curl -s "http://$bff_ip:8080/openbaar/register")"
echo "$body" | grep -q '^\[' || { echo "FAIL: openbaar did not return a JSON array: $body" >&2; exit 1; }
if echo "$body" | grep -q '"bsn"'; then echo "FAIL: openbaar leaked a bsn field" >&2; exit 1; fi
echo "OK — BFF: 401 without token, 202 with a digid token, anonymous public-safe openbaar register"

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@@ -1,68 +0,0 @@
#!/usr/bin/env bash
#
# Verify the BIG Domain Service end-to-end (S-05) against an ALREADY-RUNNING full stack:
# domain → Flowable (start the registratie process + external-task worker) → ACL → OpenZaak.
# Submits a registration to the domain and asserts the worker opens a zaak in OpenZaak and
# records its URL on the aggregate (ADR-0009).
#
# The seeded zaaktype URL is server-assigned, so it isn't knowable at initial bring-up. This
# script therefore seeds a published BIG zaaktype and recreates the `acl` service configured to
# default-fill it — pointing the ACL at the SAME OpenZaak host that owns the URL, so zaak creation
# is host-consistent (exactly the configuration the ACL integration test proves, ADR-0006). That
# one recreate aside, the caller owns stack bring-up + teardown.
#
# All in-network, reaching services by container IP (a single-label host isn't URL-valid; the
# runner can't reach published ports — gitea-actions-gotchas.md §5/§6). Plain docker primitives.
set -euo pipefail
here="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
root="$(cd "$here/.." && pwd)"
compose="$root/infra/docker-compose.yml"
ip() { docker inspect -f '{{range .NetworkSettings.Networks}}{{.IPAddress}}{{end}}' "$1"; }
oz="$(docker ps -q --filter 'name=[-_]openzaak[-_]' | head -1)"
dom="$(docker ps -q --filter 'name=domain' | head -1)"
[ -n "$oz" ] || { echo "ERROR: no running OpenZaak container — bring the stack up first" >&2; exit 1; }
[ -n "$dom" ] || { echo "ERROR: no running domain container — bring the stack up first" >&2; exit 1; }
net="$(docker inspect -f '{{range $k,$_ := .NetworkSettings.Networks}}{{$k}}{{"\n"}}{{end}}' "$oz" | head -1)"
oz_ip="$(ip "$oz")"; dom_ip="$(ip "$dom")"
oz_base="http://$oz_ip:8000"
echo ">> openzaak=$oz_ip domain=$dom_ip network=$net"
echo ">> seeding a published BIG zaaktype (idempotent) and capturing its URL"
sid="$(docker create --network "$net" -e "OZ_BASE=$oz_base" -e OZ_PUBLISH=1 python:3-slim python /seed.py)"
docker cp "$here/openzaak/seed_catalogus.py" "$sid:/seed.py" >/dev/null
zt_url="$(docker start -a "$sid" | sed -n 's/^ZAAKTYPE_URL //p' | head -1)"
docker rm -f "$sid" >/dev/null
[ -n "$zt_url" ] || { echo "ERROR: seed did not report a ZAAKTYPE_URL" >&2; exit 1; }
echo ">> zaaktype: $zt_url"
echo ">> recreating the acl service pointed at the seeded zaaktype (host-consistent)"
ACL_ZAAKTYPE_URL="$zt_url" ACL_OPENZAAK_BASEURL="$oz_base/" docker compose -f "$compose" up -d acl
WAIT_TIMEOUT="${WAIT_TIMEOUT:-120}" bash "$here/wait-healthy.sh" acl
echo ">> submitting a registration to the domain"
loc="$(docker run --rm --network "$net" curlimages/curl:latest \
-fsS -D - -o /dev/null -X POST "http://$dom_ip:8080/registrations" \
-H 'Content-Type: application/json' -d '{"bsn":"123456782"}' \
| sed -n 's/\r$//; s/^[Ll]ocation: //p' | head -1)"
[ -n "$loc" ] || { echo "ERROR: POST /registrations returned no Location" >&2; exit 1; }
echo ">> registration accepted at $loc"
echo ">> polling the domain until the worker records the opened zaak"
for _ in $(seq 1 30); do
body="$(docker run --rm --network "$net" curlimages/curl:latest \
-fsS "http://$dom_ip:8080$loc" 2>/dev/null || true)"
if echo "$body" | grep -q '/zaken/api/v1/zaken/'; then
echo "OK — the domain opened a zaak and recorded it on the registration:"
echo "$body" | cut -c1-300
exit 0
fi
sleep 2
done
echo "FAIL — the registration never received a zaak URL" >&2
echo "--- domain log ---" >&2; docker logs "$dom" 2>&1 | tail -15 >&2
acl="$(docker ps -q --filter 'name=[-_]acl[-_]' | head -1)"
[ -n "$acl" ] && { echo "--- acl log ---" >&2; docker logs "$acl" 2>&1 | tail -15 >&2; }
exit 1

View File

@@ -1,29 +0,0 @@
#!/usr/bin/env bash
#
# Walking-skeleton e2e (S-08d) against an ALREADY-RUNNING full stack: drive the self-service portal
# in a real browser through mock-DigiD login → submit → confirmation (login → BFF → domain).
#
# Runs Playwright INSIDE the compose network (a container on `cg`), so the browser reaches
# Keycloak by service name (keycloak:8080) — the same authority the BFF validates against, so the
# token issuer matches (ADR-0010). The spec is copied into the container (docker cp), not mounted,
# so it leaves no root-owned files on the host. The caller owns stack bring-up + teardown.
#
# Uses the official Playwright image with browsers pre-baked, instead of downloading ~150 MB of
# Chromium on every run (issue #73). The image tag MUST match tests/e2e/package.json's
# @playwright/test version — bump both together.
set -euo pipefail
here="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
root="$(cd "$here/.." && pwd)"
ss="$(docker ps -q --filter 'name=self-service' | head -1)"
[ -n "$ss" ] || { echo "ERROR: no running self-service container — bring the stack up first" >&2; exit 1; }
net="$(docker inspect -f '{{range $k,$_ := .NetworkSettings.Networks}}{{$k}}{{"\n"}}{{end}}' "$ss" | head -1)"
echo ">> running Playwright e2e on network $net against http://self-service"
cid="$(docker create --network "$net" -w /e2e --ipc=host \
-e SELF_SERVICE_URL=http://self-service \
mcr.microsoft.com/playwright:v1.61.1-noble sh -c 'npm install --no-audit --no-fund && npx playwright test')"
trap 'docker rm -f "$cid" >/dev/null 2>&1 || true' EXIT
docker cp "$root/tests/e2e/." "$cid:/e2e" >/dev/null
docker start -a "$cid"

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@@ -1,34 +0,0 @@
#!/usr/bin/env bash
#
# Local convenience: run the ACL integration test against a throwaway OpenZaak-only
# stack (fast iteration on the ACL gateway). Brings OpenZaak up, runs the shared
# stack-agnostic check (infra/run-acl-integration.sh), then always tears down.
#
# CI does not use this — there the full stack is brought up once and the same runner
# is invoked as a step (see the `verify-stack` job / Makefile `verify-*`). See ADR-0006.
set -euo pipefail
here="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
OZ_COMPOSE="$here/openzaak/docker-compose.yml"
cleanup() {
docker compose -f "$OZ_COMPOSE" down --volumes >/dev/null 2>&1 || true
docker volume rm -f rr-oz-config >/dev/null 2>&1 || true
}
trap cleanup EXIT
echo ">> bringing OpenZaak up"
bash "$here/seed-config.sh" oz
docker compose -f "$OZ_COMPOSE" up -d
echo ">> waiting for the OpenZaak API container to be healthy"
for _ in $(seq 1 140); do
oz="$(docker ps -q --filter 'name=[-_]openzaak[-_]' | head -1)"
if [ -n "$oz" ] && [ "$(docker inspect -f '{{if .State.Health}}{{.State.Health.Status}}{{end}}' "$oz" 2>/dev/null || true)" = healthy ]; then
break
fi
sleep 3
done
[ -n "${oz:-}" ] || { echo "ERROR: OpenZaak never came up" >&2; exit 1; }
bash "$here/run-acl-integration.sh"

View File

@@ -1,72 +0,0 @@
#!/usr/bin/env bash
#
# Verify the OpenZaak → NRC notification path against an ALREADY-RUNNING oz+nrc stack
# (the standalone stack via `make verify-notifications`, or the full compose stack in
# the CI `verify-stack` job). Seeds a published BIG zaaktype (idempotent), registers
# an abonnement to a webhook sink, creates a zaak, and asserts the sink receives the
# `zaken`/`create` notification. All in-network, reaching services by container IP
# (single-label hosts aren't URL-valid; the runner can't reach published ports).
#
# Does NOT manage the stack lifecycle (the caller owns bring-up + teardown), but it
# cleans up the throwaway sink/driver it creates. Plain docker primitives only.
# See ADR-0007.
set -euo pipefail
here="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
SINK_AUTH="Bearer notification-sink-token"
cleanup() { docker rm -f rr-nsink rr-nverify >/dev/null 2>&1 || true; }
trap cleanup EXIT
ip() { docker inspect -f '{{range .NetworkSettings.Networks}}{{.IPAddress}}{{end}}' "$1"; }
oz="$(docker ps -q --filter 'name=[-_]openzaak[-_]' | head -1)"
nrc="$(docker ps -q --filter 'name=nrc-web' | head -1)"
[ -n "$oz" ] && [ -n "$nrc" ] || { echo "ERROR: OpenZaak and/or NRC not running — bring the stack up first" >&2; exit 1; }
net="$(docker inspect -f '{{range $k,$_ := .NetworkSettings.Networks}}{{$k}}{{"\n"}}{{end}}' "$oz" | head -1)"
oz_ip="$(ip "$oz")"; nrc_ip="$(ip "$nrc")"
echo ">> network=$net openzaak=$oz_ip nrc=$nrc_ip"
echo ">> seeding a published BIG zaaktype (idempotent)"
sid="$(docker create --network "$net" -e "OZ_BASE=http://$oz_ip:8000" -e OZ_PUBLISH=1 \
python:3-slim python /seed.py)"
docker cp "$here/openzaak/seed_catalogus.py" "$sid:/seed.py" >/dev/null
docker start -a "$sid"
docker rm -f "$sid" >/dev/null
echo ">> starting the webhook sink"
docker rm -f rr-nsink >/dev/null 2>&1 || true
sink="$(docker create --network "$net" --name rr-nsink -e "EXPECTED_AUTH=$SINK_AUTH" \
python:3-slim python /sink.py)"
docker cp "$here/notification-sink.py" "$sink:/sink.py" >/dev/null
docker start "$sink" >/dev/null
sleep 1
sink_ip="$(ip rr-nsink)"
echo ">> sink at $sink_ip:9000"
echo ">> registering abonnement + creating a zaak"
docker rm -f rr-nverify >/dev/null 2>&1 || true
drv="$(docker create --network "$net" --name rr-nverify \
-e "OZ_BASE=http://$oz_ip:8000" -e "NRC_BASE=http://$nrc_ip:8000" \
-e "SINK_CALLBACK=http://$sink_ip:9000/" -e "SINK_AUTH=$SINK_AUTH" \
python:3-slim python /driver.py)"
docker cp "$here/verify-notification-driver.py" "$drv:/driver.py" >/dev/null
docker start -a "$drv"
zaak_url="$(docker logs rr-nverify 2>/dev/null | sed -n 's/^ZAAK_CREATED //p' | head -1)"
docker rm -f rr-nverify >/dev/null
[ -n "$zaak_url" ] || { echo "ERROR: driver did not create a zaak" >&2; exit 1; }
zaak_uuid="${zaak_url##*/}"
echo ">> zaak created: $zaak_url"
echo ">> waiting for the notification to reach the sink"
for _ in $(seq 1 30); do
if docker logs rr-nsink 2>&1 | grep -q "$zaak_uuid"; then
echo "OK — NRC delivered the zaken notification for zaak $zaak_uuid to the sink"
docker logs rr-nsink 2>&1 | grep "$zaak_uuid" | tail -1 | cut -c1-300
exit 0
fi
sleep 2
done
echo "FAIL — the sink never received a notification for zaak $zaak_uuid" >&2
echo "--- sink log ---" >&2; docker logs rr-nsink 2>&1 | tail -8 >&2
exit 1

View File

@@ -1,68 +0,0 @@
#!/usr/bin/env bash
#
# Verify the end-to-end read-projection path (S-06) against an ALREADY-RUNNING full stack:
# OpenZaak → NRC → Event Subscriber → projection → projection-api. Seeds a published BIG
# zaaktype (idempotent), registers an abonnement on the `zaken` kanaal pointing at the real
# Event Subscriber's /notifications callback (with the bearer it enforces), creates a zaak,
# and asserts projection-api serves a row for that zaak with status INGEDIEND.
#
# All in-network, reaching services by container IP — single-label hosts aren't URL-valid and
# the runner can't reach published ports (gitea-actions-gotchas.md §5/§6). Reuses the
# notification driver to register the abonnement + create the zaak. Does NOT manage the stack
# lifecycle (the caller owns bring-up + teardown). Plain docker primitives only. See ADR-0007/0008.
set -euo pipefail
here="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
WEBHOOK_AUTH="${NOTIFICATION_WEBHOOK_TOKEN:-Bearer big-reference-notifications}"
cleanup() { docker rm -f rr-pverify rr-pquery >/dev/null 2>&1 || true; }
trap cleanup EXIT
ip() { docker inspect -f '{{range .NetworkSettings.Networks}}{{.IPAddress}}{{end}}' "$1"; }
oz="$(docker ps -q --filter 'name=[-_]openzaak[-_]' | head -1)"
nrc="$(docker ps -q --filter 'name=nrc-web' | head -1)"
es="$(docker ps -q --filter 'name=event-subscriber' | head -1)"
proj="$(docker ps -q --filter 'name=projection-api' | head -1)"
[ -n "$oz" ] && [ -n "$nrc" ] || { echo "ERROR: OpenZaak and/or NRC not running — bring the stack up first" >&2; exit 1; }
[ -n "$es" ] && [ -n "$proj" ] || { echo "ERROR: event-subscriber and/or projection-api not running — bring the stack up first" >&2; exit 1; }
net="$(docker inspect -f '{{range $k,$_ := .NetworkSettings.Networks}}{{$k}}{{"\n"}}{{end}}' "$oz" | head -1)"
oz_ip="$(ip "$oz")"; nrc_ip="$(ip "$nrc")"; es_ip="$(ip "$es")"; proj_ip="$(ip "$proj")"
echo ">> network=$net openzaak=$oz_ip nrc=$nrc_ip event-subscriber=$es_ip projection-api=$proj_ip"
echo ">> seeding a published BIG zaaktype (idempotent)"
sid="$(docker create --network "$net" -e "OZ_BASE=http://$oz_ip:8000" -e OZ_PUBLISH=1 \
python:3-slim python /seed.py)"
docker cp "$here/openzaak/seed_catalogus.py" "$sid:/seed.py" >/dev/null
docker start -a "$sid"
docker rm -f "$sid" >/dev/null
echo ">> registering abonnement at the Event Subscriber + creating a zaak"
docker rm -f rr-pverify >/dev/null 2>&1 || true
drv="$(docker create --network "$net" --name rr-pverify \
-e "OZ_BASE=http://$oz_ip:8000" -e "NRC_BASE=http://$nrc_ip:8000" \
-e "SINK_CALLBACK=http://$es_ip:8080/notifications" -e "SINK_AUTH=$WEBHOOK_AUTH" \
python:3-slim python /driver.py)"
docker cp "$here/verify-notification-driver.py" "$drv:/driver.py" >/dev/null
docker start -a "$drv"
zaak_url="$(docker logs rr-pverify 2>/dev/null | sed -n 's/^ZAAK_CREATED //p' | head -1)"
docker rm -f rr-pverify >/dev/null
[ -n "$zaak_url" ] || { echo "ERROR: driver did not create a zaak" >&2; exit 1; }
zaak_uuid="${zaak_url##*/}"
echo ">> zaak created: $zaak_url"
echo ">> polling projection-api for the projected row (status INGEDIEND)"
for _ in $(seq 1 30); do
body="$(docker run --rm --network "$net" curlimages/curl:latest \
-fsS "http://$proj_ip:8080/register/$zaak_uuid" 2>/dev/null || true)"
if echo "$body" | grep -q '"INGEDIEND"'; then
echo "OK — projection-api serves zaak $zaak_uuid with status INGEDIEND"
echo "$body" | cut -c1-300
exit 0
fi
sleep 2
done
echo "FAIL — projection-api never served an INGEDIEND row for zaak $zaak_uuid" >&2
echo "--- event-subscriber log ---" >&2; docker logs "$es" 2>&1 | tail -10 >&2
echo "--- projection-api log ---" >&2; docker logs "$proj" 2>&1 | tail -10 >&2
exit 1

View File

@@ -1,46 +0,0 @@
#!/usr/bin/env bash
#
# Populate the external named *config* volumes that the upstream services mount,
# by `docker cp`-ing files into a throwaway helper container that mounts each one.
#
# Why: the compose stack uses the upstream images verbatim (no build). On Gitea's
# containerized runner, `docker compose` starts the stack as SIBLING containers
# via the host daemon, so a workspace bind mount resolves to a path the daemon
# can't see and is mounted empty. `docker cp` instead streams bytes over the
# Docker API, so the files reach the volume regardless of where the daemon runs.
# We use plain docker primitives (volume create / run / cp / rm) rather than
# `docker compose create`, because podman-compose (local dev) lacks that
# subcommand. Fixed-name `external` volumes keep the names deterministic across
# both runtimes. See docs/runbooks/gitea-actions-gotchas.md.
#
# Usage: seed-config.sh <key> [<key> ...] where key ∈ { oz, kc, fl }
set -euo pipefail
here="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
HELPER="${SEED_HELPER_IMAGE:-docker.io/library/busybox:stable}"
populate() { # volume source(file or dir/.)
local vol="$1" src="$2" cid
docker volume rm -f "$vol" >/dev/null 2>&1 || true
docker volume create "$vol" >/dev/null
# A *created* (never started) helper is enough: the volume is attached at create
# time, `docker cp` writes through to it, and `docker rm` is instant (nothing to
# stop). `docker create` is a container subcommand both docker and podman have —
# unlike `docker compose create`, which podman-compose lacks.
cid="$(docker create -v "$vol:/dest" "$HELPER" true)"
docker cp "$src" "$cid:/dest/"
docker rm "$cid" >/dev/null
echo " seeded $vol"
}
[ "$#" -gt 0 ] || { echo "usage: seed-config.sh <oz|nrc|kc|fl> ..." >&2; exit 2; }
for key in "$@"; do
case "$key" in
oz) populate rr-oz-config "$here/openzaak/setup_configuration/." ;;
nrc) populate rr-nrc-config "$here/opennotificaties/setup_configuration/." ;;
kc) populate rr-kc-realms "$here/keycloak/realms/." ;;
fl) populate rr-fl-bpmn "$here/../workflows/registratie.bpmn" ;;
*) echo "unknown seed key: $key" >&2; exit 2 ;;
esac
done

View File

@@ -1,90 +0,0 @@
#!/usr/bin/env python3
"""Drive the OpenZaak → NRC notification check from *inside* the compose network.
Registers an abonnement on the `zaken` kanaal pointing at a webhook sink, then
creates a zaak against the published BIG zaaktype. OpenZaak publishes a
`zaken`/`create` notification; NRC delivers it to the sink. The host harness
(infra/verify-notifications.sh) then asserts the sink received it.
Reached by container IP, not service name: OpenZaak/NRC validate URLs with Django's
URLValidator, which rejects a single-label host like `openzaak`. Stdlib only.
Env: OZ_BASE, NRC_BASE, SINK_CALLBACK, SINK_AUTH, OZ_CLIENT_ID, OZ_SECRET.
"""
import base64
import hashlib
import hmac
import json
import os
import sys
import time
import urllib.error
import urllib.request
OZ = os.environ["OZ_BASE"].rstrip("/")
NRC = os.environ["NRC_BASE"].rstrip("/")
SINK_CALLBACK = os.environ["SINK_CALLBACK"]
SINK_AUTH = os.environ.get("SINK_AUTH", "Bearer notification-sink-token")
CID = os.environ.get("OZ_CLIENT_ID", "big-reference-seed")
SECRET = os.environ.get("OZ_SECRET", "insecure-dev-secret-change-me")
RSIN = "517439943"
def token():
b64 = lambda b: base64.urlsafe_b64encode(b).rstrip(b"=")
seg = (
b64(json.dumps({"alg": "HS256", "typ": "JWT"}, separators=(",", ":")).encode())
+ b"."
+ b64(json.dumps(
{"iss": CID, "iat": int(time.time()), "client_id": CID,
"user_id": "verify", "user_representation": "verify"},
separators=(",", ":")).encode())
)
return (seg + b"." + b64(hmac.new(SECRET.encode(), seg, hashlib.sha256).digest())).decode()
def call(method, url, body=None, crs=False):
headers = {"Authorization": "Bearer " + token(),
"Content-Type": "application/json", "Accept": "application/json"}
if crs:
headers["Accept-Crs"] = "EPSG:4326"
headers["Content-Crs"] = "EPSG:4326"
data = json.dumps(body).encode() if body is not None else None
try:
with urllib.request.urlopen(
urllib.request.Request(url, data=data, method=method, headers=headers), timeout=30
) as r:
return r.status, json.loads(r.read() or "null")
except urllib.error.HTTPError as e:
return e.code, json.loads(e.read() or "null")
def main():
status, ab = call("POST", f"{NRC}/api/v1/abonnement", {
"callbackUrl": SINK_CALLBACK,
"auth": SINK_AUTH,
"kanalen": [{"naam": "zaken", "filters": {}}],
})
if status != 201:
sys.exit(f"create abonnement -> {status}: {json.dumps(ab)}")
print(f"abonnement: {ab['url']}")
status, body = call(
"GET", f"{OZ}/catalogi/api/v1/zaaktypen?identificatie=BIG-REGISTRATIE&status=definitief")
results = body.get("results", []) if status == 200 else []
if not results:
sys.exit("no published BIG-REGISTRATIE zaaktype — seed with OZ_PUBLISH=1 first")
zaaktype = results[0]["url"]
status, zaak = call("POST", f"{OZ}/zaken/api/v1/zaken", {
"bronorganisatie": RSIN, "verantwoordelijkeOrganisatie": RSIN,
"zaaktype": zaaktype, "startdatum": time.strftime("%Y-%m-%d"),
"vertrouwelijkheidaanduiding": "openbaar",
}, crs=True)
if status != 201:
sys.exit(f"create zaak -> {status}: {json.dumps(zaak)}")
# The harness greps the sink for this exact URL.
print(f"ZAAK_CREATED {zaak['url']}")
if __name__ == "__main__":
main()

View File

@@ -1,41 +0,0 @@
#!/usr/bin/env bash
#
# Local convenience: verify the OpenZaak → NRC notification path against a throwaway
# oz+nrc stack. Brings both up (notifications enabled), runs the shared stack-agnostic
# check (infra/run-notification-check.sh), then always tears down.
#
# CI does not use this — there the full stack is brought up once and the same runner
# is invoked as a step (see the `verify-stack` job / Makefile `verify-*`). See ADR-0007.
set -euo pipefail
here="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
OZ_COMPOSE="$here/openzaak/docker-compose.yml"
NRC_COMPOSE="$here/opennotificaties/docker-compose.yml"
cleanup() {
docker compose -f "$OZ_COMPOSE" -f "$NRC_COMPOSE" down --volumes >/dev/null 2>&1 || true
docker volume rm -f rr-oz-config rr-nrc-config >/dev/null 2>&1 || true
}
trap cleanup EXIT
wait_healthy() { # name-regex
local re="$1" cid
for _ in $(seq 1 140); do
cid="$(docker ps -q --filter "name=$re" | head -1)"
if [ -n "$cid" ] && [ "$(docker inspect -f '{{if .State.Health}}{{.State.Health.Status}}{{end}}' "$cid" 2>/dev/null || true)" = healthy ]; then
return 0
fi
sleep 3
done
return 1
}
echo ">> bringing up OpenZaak + Open Notificaties (notifications enabled)"
bash "$here/seed-config.sh" oz nrc
OZ_NOTIFICATIONS_DISABLED=false docker compose -f "$OZ_COMPOSE" -f "$NRC_COMPOSE" up -d
echo ">> waiting for OpenZaak + NRC to be healthy"
wait_healthy '[-_]openzaak[-_]' || { echo "ERROR: OpenZaak not healthy" >&2; exit 1; }
wait_healthy 'nrc-web' || { echo "ERROR: NRC not healthy" >&2; exit 1; }
bash "$here/run-notification-check.sh"

View File

@@ -1,36 +0,0 @@
#!/usr/bin/env bash
#
# Wait until the named compose services report a healthy healthcheck.
#
# Portable across `docker compose` (CI) and `podman-compose` (local dev): it uses
# plain `docker ps` + `docker inspect`, so it needs neither `docker compose
# up --wait` (podman-compose doesn't implement that flag) nor host port access
# (the containerized CI runner can't reach published ports). It also sidesteps the
# `--wait`-fails-when-a-one-shot-exits issue, since we only poll long-running
# services that declare a healthcheck. See docs/runbooks/gitea-actions-gotchas.md.
#
# Usage: WAIT_TIMEOUT=420 wait-healthy.sh <service> [<service> ...]
set -euo pipefail
timeout="${WAIT_TIMEOUT:-420}"
deadline=$(( $(date +%s) + timeout ))
# compose service name -> container id. The name filter matches both docker
# compose ("infra-openzaak-1") and podman-compose ("infra_openzaak_1") naming.
cid_for() { docker ps -aq --filter "name=$1" | head -1; }
for svc in "$@"; do
echo "waiting for '$svc' to be healthy (timeout ${timeout}s)..."
while :; do
cid="$(cid_for "$svc")"
status=""
[ -n "$cid" ] && status="$(docker inspect -f '{{if .State.Health}}{{.State.Health.Status}}{{else}}none{{end}}' "$cid" 2>/dev/null || true)"
[ "$status" = "healthy" ] && { echo " '$svc' is healthy"; break; }
if [ "$(date +%s)" -ge "$deadline" ]; then
echo "TIMEOUT: '$svc' not healthy (status=${status:-no-container})" >&2
docker ps -a --filter "name=$svc" >&2 || true
exit 1
fi
sleep 3
done
done

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@@ -1,7 +0,0 @@
# api-client
This library was generated with [Nx](https://nx.dev).
## Running unit tests
Run `nx test api-client` to execute the unit tests.

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@@ -1,34 +0,0 @@
import nx from '@nx/eslint-plugin';
import baseConfig from '../../eslint.config.mjs';
export default [
...nx.configs['flat/angular'],
...nx.configs['flat/angular-template'],
...baseConfig,
{
files: ['**/*.ts'],
rules: {
'@angular-eslint/directive-selector': [
'error',
{
type: 'attribute',
prefix: 'lib',
style: 'camelCase',
},
],
'@angular-eslint/component-selector': [
'error',
{
type: 'element',
prefix: 'lib',
style: 'kebab-case',
},
],
},
},
{
files: ['**/*.html'],
// Override or add rules here
rules: {},
},
];

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@@ -1,17 +0,0 @@
import { defineConfig } from 'orval';
// Generates the BFF client (Angular HttpClient service + models) from the committed
// OpenAPI contract. Never hand-edit the generated output — re-run `nx run api-client:generate`
// after the BFF spec changes (CLAUDE.md §10; docs/frontend-decisions.md).
export default defineConfig({
bff: {
input: '../../services/bff/openapi.json',
output: {
target: './src/lib/generated/bff-api.ts',
client: 'angular',
mode: 'single',
clean: true,
prettier: true,
},
},
});

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