shankar0123
bc6039a79e
Post-transfer cosmetic + release-critical URL refresh after moving the
repo from github.com/shankar0123/certctl to github.com/certctl-io/certctl
(2026-05-03). GitHub HTTP redirects continue to forward old URLs forever,
so existing operators are not broken — but aligns the canonical
references with the new owner so:
- procurement engineers / contributors browsing the docs see the right
URL on first read
- operators copying the agent install one-liner hit the new path
directly without going through a redirect
- the Helm chart's default image repository points at the canonical org
registry path
- the OnboardingWizard rendered to first-run UI users shows the new
URL in the install snippets and doc anchor links
- the GitHub Actions release workflow pushes container images to
ghcr.io/certctl-io/certctl-{server,agent} (was: shankar0123)
- the release-notes Markdown body in release.yml — which gets stamped
into every future release page — references the post-transfer
cert-identity (cosign keyless signing now uses the certctl-io
workflow URL) and the post-transfer SLSA provenance source-uri.
Without this, every cosign verify / slsa-verifier command on a
v2.1.0+ release would fail because the cert-identity-regexp would
not match the signing identity GitHub Actions OIDC issues post-
transfer. Old releases (v2.0.67 and earlier) keep their immutable
release-notes pointing at the shankar0123 path and remain
verifiable via their own published instructions.
Customer impact:
- Operators on ghcr.io/shankar0123/certctl-{server,agent}:latest
silently freeze on whatever tag was current at transfer time. They
get no errors; they just stop receiving updates. The next release
notes need a one-line callout (Phase 3.1 of cowork/transfer-
certctl-to-org.md) telling them to update their image path to
ghcr.io/certctl-io/certctl-{server,agent}.
- All other URLs (git clone, install one-liner, raw.githubusercontent
URLs, browser links, GitHub API) continue to resolve via permanent
HTTP redirects. The sweep is cosmetic for those.
Files swept (30 total):
.github/workflows/release.yml — IMAGE_NAMESPACE, source-uri,
cosign cert-identity-regexp, IMAGE= snippet (5 refs total).
CHANGELOG.md, README.md — anchor links, badges, install one-liner,
cosign verify snippets in operator-facing sections.
api/openapi.yaml — info / externalDocs URLs.
install-agent.sh — GITHUB_REPO const + systemd unit Documentation=
field.
deploy/ENVIRONMENTS.md, deploy/helm/{CHART_SUMMARY,INDEX,
INSTALLATION,README}.md, deploy/helm/certctl/{Chart.yaml,
README.md,values.yaml}, deploy/helm/examples/values-*.yaml —
chart docs + image repository defaults across dev / prod-ha
overrides.
docs/{certctl-for-cert-manager-users,connector-iis,connectors,
migrate-from-acmesh,migrate-from-certbot,quickstart,test-env,
why-certctl}.md — operator-facing doc URLs.
examples/{acme-nginx,acme-wildcard-dns01,multi-issuer,
private-ca-traefik,step-ca-haproxy}/docker-compose.yml +
examples/step-ca-haproxy/step-ca-haproxy.md — example image:
paths and accompanying narrative.
web/src/pages/OnboardingWizard.tsx — first-run-UI URL refs (curl
install one-liners, agent docker image path, doc anchor links).
Files intentionally NOT swept (Choice A from cowork/transfer-certctl-
to-org.md):
go.mod, go.sum — module declaration stays github.com/shankar0123/
certctl. Existing imports compile because Go uses the path
declared in go.mod, not the URL it was fetched from. Internal-
only project; no external Go consumers; rename will land as a
mechanical sed when one materializes.
~250 *.go files — every import remains github.com/shankar0123/
certctl/internal/...
deploy/test/f5-mock-icontrol/go.mod — separate test sub-module;
same Choice A logic; module path stays.
Files intentionally NOT swept (other reasons):
README.md lines 244-245 — Scarf-pixel docker-pull commands.
shankar0123.docker.scarf.sh/... is a Scarf-account hostname
(per-user, not per-repo) and the pixel keeps tracking pulls
against the operator's personal Scarf account. Migrating to a
certctl-io Scarf account is a separate decision (create org
Scarf account → re-create package → update README).
deploy/test/f5-mock-icontrol/f5-mock-icontrol — checked-in
compiled binary with shankar0123/certctl baked into Go build
info via the sub-module path. Out of scope for a URL sweep;
will refresh on the next `make test-integration` rebuild.
Verification:
gofmt: clean (no .go files touched).
go vet ./...: clean (verified at this SHA in 1.3 of the transfer
checklist; no .go changes since).
go build ./...: clean (same).
go test -short on representative packages: green (same).
Diff shape: 30 files, 74 insertions / 74 deletions, net-zero size,
pure URL substitution.
Deployment Examples
Five turnkey docker-compose scenarios that show certctl deployed against real CA backends and target shapes. Each subdirectory is self-contained — pick the one closest to your stack and have it running in minutes.
| Example | Stack | What it shows |
|---|---|---|
acme-nginx/ |
Let's Encrypt + NGINX (HTTP-01) | The default public-CA path: ACME-issued certs deployed to NGINX. |
acme-wildcard-dns01/ |
Let's Encrypt wildcard (DNS-01) | Wildcard certificates via DNS-01 with pluggable DNS hooks. |
private-ca-traefik/ |
Local CA + Traefik | Internal-only certs from a private CA, deployed to Traefik. |
step-ca-haproxy/ |
Smallstep step-ca + HAProxy | Self-hosted CA with HAProxy as the deployment target. |
multi-issuer/ |
Let's Encrypt + Local CA | Public + private certs side-by-side from a single dashboard. |
Common operational notes
These notes apply to every example. They're called out here so the per-example walkthroughs stay focused on the issuer/target wiring instead of repeating ops boilerplate.
Postgres password rotation — first-boot binding trap (U-1)
Every example file uses ${DB_PASSWORD:-certctl-dev-password} as the postgres password env var, with the data directory persisted via a named volume. The postgres:16-alpine image runs initdb exactly once — when /var/lib/postgresql/data is empty — and that's the only time POSTGRES_PASSWORD is written into pg_authid. If you boot once with the default and then change DB_PASSWORD (in your shell, in a .env file, or in a wrapper script), the certctl-server container picks up the new value but the postgres container continues to authenticate against the old one. The server fails its startup db.Ping() with pq: password authentication failed for user "certctl" (SQLSTATE 28P01).
The certctl-server emits guidance pointing at the fix when this fires (see internal/repository/postgres/db.go::wrapPingError). The two remediation paths:
- Destructive — wipes all certctl data, only acceptable on demo/test setups:
docker compose -f examples/<example>/docker-compose.yml down -v docker compose -f examples/<example>/docker-compose.yml up -d --build - Non-destructive — preserves data, rotates
pg_authidin place:docker compose -f examples/<example>/docker-compose.yml exec postgres \ psql -U certctl -c "ALTER ROLE certctl PASSWORD '<new>';" # Then redeploy with DB_PASSWORD set to <new> in your shell or .env
The cleanest practice for a fresh demo: set DB_PASSWORD once in your shell before the very first docker compose up, and don't change it during the demo's lifetime. If you must rotate, use the non-destructive path.
Same root cause and remediation pattern is documented for the canonical quickstart in ../docs/quickstart.md, the production compose surface in ../deploy/ENVIRONMENTS.md, and the Helm chart in ../deploy/helm/certctl/README.md.
TLS for the certctl control plane
Every example boots certctl with HTTPS-only on port 8443 (TLS 1.3 pinned, no plaintext listener as of v2.2). The shipped certctl-tls-init init container generates a self-signed ECDSA-P256 cert on first boot — fine for the example demos, never acceptable for a public deployment. For production, swap the init container for cert-manager, an operator-supplied Secret, or your internal CA — see ../docs/tls.md for the full pattern matrix.
Tearing down
To stop services but keep the postgres volume (so you can pick up where you left off):
docker compose -f examples/<example>/docker-compose.yml down
To stop services and wipe all data (clean slate for the next run):
docker compose -f examples/<example>/docker-compose.yml down -v
Note that down -v is the only canonical way to recover from the postgres-password trap when the non-destructive ALTER ROLE route is unavailable (e.g., you've forgotten the original password).