Adds tini to the runtime image and routes ENTRYPOINT through it so
zddc-server runs as PID 2 with proper orphan reaping and signal
forwarding. Today zddc-server is a single-process server and the change
is invisible; the motivation is the upcoming render path that will
shell out to pandoc (which itself shells out to xelatex / lua filters /
dot) — any grandchild orphaned by a mid-run crash gets reparented to
PID 1, and a Go server is not the right thing to put in charge of
reaping subprocesses it never spawned.
tini is ~24KB and does exactly this one job. Putting it in the upstream
image (rather than each downstream consumer's Dockerfile) means every
deployment of codeberg.org/varasys/zddc-server gets the fix for free,
including the Burns & McDonnell prod chart wrapper that's about to land.
Cut a new release with `sh release-image.sh <version> stable` to
publish.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
- release-image.sh now defaults to alpha (was stable). Active dev no
longer silently advances :stable; that tag only moves on a deliberate
`sh release-image.sh <ver> stable`. Same cascade logic, reordered
default. Updated AGENTS.md and zddc/README.md sections accordingly.
- zddc/Containerfile: dropped the "see .woodpecker.yml" comment since
that file no longer exists; pointed the docs to release-image.sh.
- build.sh: dropped the "CI builds the runtime container directly"
parenthetical; the cross-compiled host-binaries build is the only
thing that step actually produces.
Why alpha as the default: caught it during active development —
:stable kept advancing every release because the script defaulted
there. Solo workflow + alpha default = `:stable` is a deliberate
gesture, not a side-effect.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Batch 1 of the chart-vs-project split. The project now ships a
hardened runtime image as part of every zddc-server release; downstream
deployments (e.g. the Burns & McDonnell Helm chart) will FROM this
image instead of cloning and building from source.
zddc/Containerfile (target: server)
- Tag the runtime stage `server` so `podman build --target server`
is unambiguous (the existing `binaries` target still works).
- Bake the bundled landing + archive tool HTML at /opt/zddc-server/web.
Useful for self-contained demos (`ZDDC_ROOT=/opt/zddc-server/web`)
and as a fallback web root when no external mount is supplied.
- Set fixed UID/GID 1000 for the non-root zddc user so volume
permissions are predictable across hosts.
- Add ENV ZDDC_ROOT=/srv default so a `podman run -v data:/srv` works
with no further config; explicit ZDDC_ROOT overrides.
- Declare VOLUME /srv to make the data-mount expectation explicit.
- Add OCI image labels (title, description, source, documentation,
license, vendor).
- Install ca-certificates so any future outbound HTTPS works.
- Add a HEALTHCHECK for `docker run` users (Kubernetes overrides).
build.sh
- Make the cross-platform podman binary build conditional on `podman`
being present. CI doesn't need it (the runtime container image's
own builder stage produces linux/amd64 internally), but having
build.sh sh-only-runnable means CI doesn't have to do nested
containers just to assemble dist/web.
- Reorder so `zddc/dist/web/` is assembled before the binary build
(allows the binary build to be skipped without breaking the bundle).
.woodpecker.yml (new)
- Triggers on tag push matching `zddc-server-v*`.
- Step 1 (alpine + sh): runs `sh build.sh` to assemble dist/web,
computes the image tag (`${TAG#zddc-server-v}` plus `latest`).
- Step 2 (docker-buildx plugin): builds and publishes
codeberg.org/varasys/zddc-server:{X.Y.Z, latest}. Auth via the
codeberg_user / codeberg_token Woodpecker secrets — these need
one-time setup in repo Settings; documented in zddc/README.md.
zddc/README.md
- New "Container image" section: pull URL, image properties (alpine,
non-root UID 1000, EXPOSE 8443, VOLUME /srv, baked web bundle),
example `podman run` invocation.
- New "Env-var contract (for chart consumers)" table: the variables
Helm charts and Compose files should set explicitly when running
behind a TLS-terminating reverse proxy with SSO. This is the
documented interface between project and downstream charts.
- "Release Tagging" section now points at .woodpecker.yml and lists
the two Woodpecker secrets that must be configured.
Validated locally:
podman build --target server -t zddc-server-test .
podman run -e ZDDC_ROOT=/opt/zddc-server/web -e ZDDC_TLS_CERT=none \
-e ZDDC_INSECURE_DIRECT=1 -e ZDDC_ADDR=:8080 \
-p 18080:8080 zddc-server-test
curl http://localhost:18080/ → HTTP 200, bundled landing tool.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
ZDDC — Zero Day Document Control. A file-naming convention plus five
single-file HTML tools (archive, transmittal, classifier, mdedit,
landing) and an optional Go HTTP server (zddc-server) with ACL and a
virtual archive index. Self-contained, offline-capable, dependency-free.
See README.md for an overview, AGENTS.md and ARCHITECTURE.md for the
build/release/architecture detail, bootstrap/README.md for the
two-level deployment install pattern, and zddc/README.md for the
HTTP server.
