shankar0123
1720e11109
The README's Quick Start, the qa-prerequisites contributor doc, and the
landing page (separate repo, separate commit) all shipped a copy-paste
command that produces:
service "certctl-server" has neither an image nor a build context
specified: invalid compose project
The bug landed silently with commit a3d8b9c (the U-3 master). Pre-U-3,
docker-compose.demo.yml was self-contained and could be invoked with a
single -f flag. U-3 deliberately reduced it to a 27-line overlay — its
only payload today is `CERTCTL_DEMO_SEED=true` on the certctl-server
service — because the demo seed now applies at boot via
postgres.RunDemoSeed, not via /docker-entrypoint-initdb.d/. The overlay
no longer carries an image: or build: of its own, so it MUST be passed
alongside the base file.
The README/qa-doc/landing-page never picked up the rename of the contract.
Every operator who copy-pasted the Quick Start since U-3 has hit the
"invalid compose project" error and bounced. The operator caught it
running the demo locally today.
This commit fixes the three certctl-repo sites:
README.md (Quick Start)
docker compose -f deploy/docker-compose.demo.yml up -d --build
→
docker compose -f deploy/docker-compose.yml -f deploy/docker-compose.demo.yml up -d --build
Plus the "drop the -f flag for clean install" prose now spells out
the correct fallback (`-f deploy/docker-compose.yml` alone).
docs/contributor/qa-prerequisites.md (Step 1)
Same single-file → two-file fix, plus an inline note explaining
why the override-only file requires the base (so the next person
who reads it understands the contract instead of re-discovering it).
deploy/ENVIRONMENTS.md (Demo Overlay → What it adds)
Replaced the stale "One line: mounts seed_demo.sql into PostgreSQL's
init directory" claim — that hasn't been true since U-3 — with the
accurate "One env var: CERTCTL_DEMO_SEED=true; server applies
seed_demo.sql at boot via postgres.RunDemoSeed" description, plus
the historical context for why the overlay can't stand alone.
The certctl.io landing page hits the same bug (line 759); fix shipping
in a separate commit in that repo.
Acceptance gate (manual):
- copy/paste the new README Quick Start command end-to-end against
a fresh clone — succeeds, dashboard at https://localhost:8443
shows the seeded demo data within ~30s.
- clean-install fallback (`docker compose -f deploy/docker-compose.yml
up -d --build`) starts a working stack with no demo data.
certctl Documentation
Last reviewed: 2026-05-05
The full docs index, organized by audience. Pick the section that matches what you need to do; each link below opens a focused doc rather than a wall of text.
For the elevator pitch and quickstart commands, see the repo README.md at the root. For the marketing site, see certctl.io.
Getting Started
You're new to certctl, just cloned the repo, or want to understand what it does before installing.
| Doc | What it covers |
|---|---|
| Concepts | TLS certificates explained for beginners — CAs, ACME, EST, private keys, the full glossary |
| Quickstart | Five-minute setup with Docker Compose, dashboard tour, API tour |
| Examples | Five turnkey scenarios — ACME+NGINX, wildcard DNS-01, private CA+Traefik, step-ca+HAProxy, multi-issuer |
| Advanced demo | End-to-end certificate lifecycle with technical depth at each step |
| Why certctl | Positioning vs ACME clients, agent-based SaaS, enterprise platforms; when to look elsewhere |
Reference
You're operating certctl in production or building integrations and need authoritative technical detail.
| Doc | What it covers |
|---|---|
| Architecture | System design, data flow, security model, deployment topologies |
| API | OpenAPI 3.1 spec, integration patterns, client SDK generation |
| CLI | certctl-cli command reference and CI/CD integration patterns |
| Configuration | CERTCTL_* environment variable reference (scheduler, rate limits, deploy verify, audit, agent) |
| MCP server | Model Context Protocol integration for AI assistants |
| Release verification | Cosign / SLSA / SBOM verification procedure |
| Intermediate CA hierarchy | Multi-level CA tree management — RFC 5280 §3.2/§4.2.1.9/§4.2.1.10 enforcement |
| Deployment model | Atomic write, post-deploy verify, rollback semantics across all targets |
| Vendor matrix | Tested vendor versions per target connector |
Connectors
The connector index is the canonical catalog (interfaces, registry, scanners, plus an inline reference per built-in). Per-connector deep-dive siblings cover operator-grade material — vendor edges, troubleshooting, rotation playbooks, when-to-use vs alternatives.
Issuers (13 deep-dives): ACME · ADCS · AWS ACM Private CA · DigiCert · EJBCA / Keyfactor · Entrust · GlobalSign Atlas HVCA · Google CAS · Local CA · OpenSSL / Custom CA · Sectigo SCM · step-ca / Smallstep · Vault PKI
Targets (15 deep-dives): Apache · AWS Certificate Manager · Azure Key Vault · Caddy · Envoy · F5 BIG-IP · HAProxy · IIS · Java Keystore · Kubernetes Secrets · NGINX · Postfix / Dovecot · SSH (agentless) · Traefik · Windows Certificate Store
Protocols
| Doc | What it covers |
|---|---|
| ACME server | Run certctl as an RFC 8555 + RFC 9773 ARI ACME server |
| ACME server threat model | Security posture for the ACME server endpoint |
| SCEP server | RFC 8894 native SCEP server — RA cert config, multi-profile dispatch, must-staple, mTLS sibling route |
| SCEP for Microsoft Intune | Intune-specific deployment guide — NDES replacement playbook |
| EST server | RFC 7030 EST server — 802.1X / Wi-Fi enrollment, IoT bootstrap, channel binding |
| CRL & OCSP | RFC 5280 CRL + RFC 6960 OCSP responder for relying parties |
| Async CA polling | Bounded polling for async-CA issuer connectors |
Operator
You're running certctl in production and need operational guidance.
| Doc | What it covers |
|---|---|
| Security posture | Auth, rate limits, encryption at rest, key rotation |
| Control plane TLS | Self-signed bootstrap, operator-supplied Secret, cert-manager Certificate CR |
| Database TLS | PostgreSQL transport encryption |
| Approval workflow | Two-person integrity gate for high-stakes issuance |
| Helm deployment | Kubernetes installation via the bundled chart |
| Performance baselines | Operator-runnable benchmarks for regression spot checks |
| Legacy clients (TLS 1.2) | Reverse-proxy runbook for embedded EST/SCEP clients on TLS 1.2 |
Runbooks
| Runbook | When |
|---|---|
| Cloud targets | AWS ACM + Azure Key Vault deployment, debugging, rollback |
| Expiry alerts | Per-policy multi-channel routing matrix, severity tiers |
| Disaster recovery | CRL cache, OCSP responder cert, CA private-key rotation, Postgres restore |
Migration
You're moving from another cert-management tool to certctl, or running both in parallel.
| From | Doc |
|---|---|
| Certbot | migration/from-certbot.md |
| acme.sh | migration/from-acmesh.md |
| cert-manager (coexistence, not replacement) | migration/cert-manager-coexistence.md |
| Caddy ACME (point Caddy at certctl) | migration/acme-from-caddy.md |
| cert-manager ACME (point cert-manager at certctl) | migration/acme-from-cert-manager.md |
| Traefik ACME (point Traefik at certctl) | migration/acme-from-traefik.md |
Contributor
You're contributing to certctl, running tests locally, or trying to understand the CI pipeline.
| Doc | What it covers |
|---|---|
| Testing strategy | What we test and why; per-PR fast gates vs daily deep-scan |
| Test environment | Local environment with real CAs (Pebble, step-ca, etc.) |
| QA prerequisites | Before running QA: stack boot, demo data baseline, env vars |
| QA test suite | qa_test.go reference for release QA |
| GUI QA checklist | Manual GUI verification pass for release |
| Release sign-off | Release-day checklist — code state, automated gates, manual QA, artefact verification |
| CI pipeline | CI shape, regression guards, adding new checks |
Archive
Historical docs preserved for reference. Most operators don't need these.
| Doc | Why archived |
|---|---|
| Upgrade to TLS (v2.2) | Pre-v2.2 HTTPS-everywhere upgrade procedure |
| Upgrade past v2 JWT removal | G-1 milestone JWT auth removal procedure |
Reading order by role
First-time operator: Concepts → Quickstart → Examples. About 90 minutes end to end.
Production operator: Architecture → Security posture → Control plane TLS → Disaster recovery runbook. About 4 hours end to end.
PKI engineer: ACME server → SCEP server → EST server → Intermediate CA hierarchy. About 6 hours end to end.
Contributor: Architecture → Testing strategy → Test environment → CI pipeline. About 3 hours end to end.