gsadmin/certctl
1
0
Fork 0
mirror of https://github.com/shankar0123/certctl.git synced 2026-06-07 22:31:36 +00:00
Code Issues Packages Projects Releases Wiki Activity

Compare commits

base: gsadmin/certctl:v2.0.20
Branches Tags
gsadmin/certctl:master
gsadmin/certctl:v2.1.7 gsadmin/certctl:v2.1.6 gsadmin/certctl:v2.1.5 gsadmin/certctl:v2.1.4 gsadmin/certctl:v2.1.3 gsadmin/certctl:v2.1.2 gsadmin/certctl:v2.1.1 gsadmin/certctl:v2.1.0 gsadmin/certctl:v2.0.72 gsadmin/certctl:v2.0.71 gsadmin/certctl:v2.0.70 gsadmin/certctl:v2.0.69 gsadmin/certctl:v2.0.68 gsadmin/certctl:v2.0.67 gsadmin/certctl:v2.0.66 gsadmin/certctl:v2.0.65 gsadmin/certctl:v2.0.64 gsadmin/certctl:v2.0.63 gsadmin/certctl:v2.0.62 gsadmin/certctl:v2.0.61 gsadmin/certctl:v2.0.60 gsadmin/certctl:v2.0.59 gsadmin/certctl:v2.0.57 gsadmin/certctl:v2.0.56 gsadmin/certctl:v2.0.55 gsadmin/certctl:v2.0.53 gsadmin/certctl:v2.0.54 gsadmin/certctl:v2.0.51 gsadmin/certctl:v2.0.52 gsadmin/certctl:v2.0.50 gsadmin/certctl:checkpoint/m1-migration-wip gsadmin/certctl:v2.0.49 gsadmin/certctl:v2.0.48 gsadmin/certctl:v2.0.47 gsadmin/certctl:v2.0.46 gsadmin/certctl:v2.0.45 gsadmin/certctl:v2.0.44 gsadmin/certctl:v2.0.43 gsadmin/certctl:v2.0.42 gsadmin/certctl:v2.0.41 gsadmin/certctl:v2.0.40 gsadmin/certctl:v2.0.39 gsadmin/certctl:v2.0.38 gsadmin/certctl:v2.0.37 gsadmin/certctl:v2.0.36 gsadmin/certctl:v2.0.35 gsadmin/certctl:v2.0.34 gsadmin/certctl:v2.0.33 gsadmin/certctl:v2.0.32 gsadmin/certctl:v2.0.31 gsadmin/certctl:v2.0.30 gsadmin/certctl:v2.0.29 gsadmin/certctl:v2.0.28 gsadmin/certctl:v2.0.27 gsadmin/certctl:v2.0.26 gsadmin/certctl:v2.0.25 gsadmin/certctl:v2.0.24 gsadmin/certctl:v2.0.23 gsadmin/certctl:v2.0.22 gsadmin/certctl:v2.0.21 gsadmin/certctl:v2.0.20 gsadmin/certctl:v2.0.19 gsadmin/certctl:v2.0.18 gsadmin/certctl:v2.0.17 gsadmin/certctl:v2.0.16 gsadmin/certctl:v2.0.15 gsadmin/certctl:v2.0.14 gsadmin/certctl:v2.0.13 gsadmin/certctl:v2.0.12 gsadmin/certctl:v2.0.11 gsadmin/certctl:v2.0.10 gsadmin/certctl:v2.0.9 gsadmin/certctl:v2.0.8 gsadmin/certctl:v2.0.7 gsadmin/certctl:v2.0.6 gsadmin/certctl:v2.0.5 gsadmin/certctl:v2.0.4 gsadmin/certctl:v2.0.3 gsadmin/certctl:v2.0.2 gsadmin/certctl:v2.0.1 gsadmin/certctl:v2.0.0 gsadmin/certctl:v1.0.0
...
compare: gsadmin/certctl:v2.0.26
Branches Tags
gsadmin/certctl:master
gsadmin/certctl:v2.1.7 gsadmin/certctl:v2.1.6 gsadmin/certctl:v2.1.5 gsadmin/certctl:v2.1.4 gsadmin/certctl:v2.1.3 gsadmin/certctl:v2.1.2 gsadmin/certctl:v2.1.1 gsadmin/certctl:v2.1.0 gsadmin/certctl:v2.0.72 gsadmin/certctl:v2.0.71 gsadmin/certctl:v2.0.70 gsadmin/certctl:v2.0.69 gsadmin/certctl:v2.0.68 gsadmin/certctl:v2.0.67 gsadmin/certctl:v2.0.66 gsadmin/certctl:v2.0.65 gsadmin/certctl:v2.0.64 gsadmin/certctl:v2.0.63 gsadmin/certctl:v2.0.62 gsadmin/certctl:v2.0.61 gsadmin/certctl:v2.0.60 gsadmin/certctl:v2.0.59 gsadmin/certctl:v2.0.57 gsadmin/certctl:v2.0.56 gsadmin/certctl:v2.0.55 gsadmin/certctl:v2.0.53 gsadmin/certctl:v2.0.54 gsadmin/certctl:v2.0.51 gsadmin/certctl:v2.0.52 gsadmin/certctl:v2.0.50 gsadmin/certctl:checkpoint/m1-migration-wip gsadmin/certctl:v2.0.49 gsadmin/certctl:v2.0.48 gsadmin/certctl:v2.0.47 gsadmin/certctl:v2.0.46 gsadmin/certctl:v2.0.45 gsadmin/certctl:v2.0.44 gsadmin/certctl:v2.0.43 gsadmin/certctl:v2.0.42 gsadmin/certctl:v2.0.41 gsadmin/certctl:v2.0.40 gsadmin/certctl:v2.0.39 gsadmin/certctl:v2.0.38 gsadmin/certctl:v2.0.37 gsadmin/certctl:v2.0.36 gsadmin/certctl:v2.0.35 gsadmin/certctl:v2.0.34 gsadmin/certctl:v2.0.33 gsadmin/certctl:v2.0.32 gsadmin/certctl:v2.0.31 gsadmin/certctl:v2.0.30 gsadmin/certctl:v2.0.29 gsadmin/certctl:v2.0.28 gsadmin/certctl:v2.0.27 gsadmin/certctl:v2.0.26 gsadmin/certctl:v2.0.25 gsadmin/certctl:v2.0.24 gsadmin/certctl:v2.0.23 gsadmin/certctl:v2.0.22 gsadmin/certctl:v2.0.21 gsadmin/certctl:v2.0.20 gsadmin/certctl:v2.0.19 gsadmin/certctl:v2.0.18 gsadmin/certctl:v2.0.17 gsadmin/certctl:v2.0.16 gsadmin/certctl:v2.0.15 gsadmin/certctl:v2.0.14 gsadmin/certctl:v2.0.13 gsadmin/certctl:v2.0.12 gsadmin/certctl:v2.0.11 gsadmin/certctl:v2.0.10 gsadmin/certctl:v2.0.9 gsadmin/certctl:v2.0.8 gsadmin/certctl:v2.0.7 gsadmin/certctl:v2.0.6 gsadmin/certctl:v2.0.5 gsadmin/certctl:v2.0.4 gsadmin/certctl:v2.0.3 gsadmin/certctl:v2.0.2 gsadmin/certctl:v2.0.1 gsadmin/certctl:v2.0.0 gsadmin/certctl:v1.0.0

21 Commits
v2.0.20 ... v2.0.26

Author SHA1 Message Date
shankar0123 9954fd1100 fix: remove unused installKeyErrOn field for golangci-lint 
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-03 22:29:34 -04:00
shankar0123 2a14a1da01 feat(M40): F5 BIG-IP target connector via iControl REST 
Replace 190-line stub with full iControl REST implementation (~580 lines).
Token auth with 401 auto-retry, file upload + crypto object install,
transaction-based atomic SSL profile updates, cleanup on failure.
Injectable F5Client interface for cross-platform testing. 32 tests.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-03 22:26:58 -04:00
shankar0123 5a53b648b1 feat(M44): Google CAS issuer connector 
Google Cloud Certificate Authority Service integration via REST API
with OAuth2 service account auth (JWT→access token). Synchronous
issuance model, CA pool selection, mutex-guarded token caching,
revocation with RFC 5280 reason mapping. No Google SDK dependency —
all stdlib. 19 tests with httptest mock OAuth2 + CAS API.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-03 21:25:34 -04:00
shankar0123 cb72292b83 fix: use tagged switch for staticcheck QF1002 in sectigo tests 
Convert 3 untagged switch statements to tagged `switch r.URL.Path {}`
form to satisfy staticcheck QF1002. No behavioral change.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-03 21:08:21 -04:00
shankar0123 3a11e447cf feat(M43): Sectigo SCM issuer connector 
Implement Sectigo Certificate Manager REST API connector with async
order model (enroll → poll → collect PEM), 3-header auth, DV/OV/EV
support, collect-not-ready (400/-183) graceful handling, and RFC 5280
revocation reason mapping. 20 tests with httptest mock API.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-03 21:01:14 -04:00
shankar0123 bad02e6f23 docs: add deployment examples index and cross-link migration guides 
Create docs/examples.md as the central entry point for all 5 turnkey
docker-compose scenarios with a decision matrix, per-example summaries,
and contextual migration guide links. Update quickstart.md to bridge
from demo to real deployment. Consolidate README docs table (10 rows
from 13). Fix Vault PKI "(planned)" in cert-manager guide.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-03 17:41:23 -04:00
shankar0123 4c3b7cbb16 docs: fix stale references, seed data case bugs, and convert ASCII diagrams to Mermaid 
Audit all docs and examples against current codebase state. Fix seed_demo.sql
domain constant casing (IssuerType, TargetType, AgentStatus) that would cause
agent dispatch failures. Fix example docker-compose health endpoints (/health
not /api/v1/health) and env var names (CERTCTL_DATABASE_URL). Update connector
counts, test numbers, and planned→implemented status across docs. Convert 3
ASCII flow diagrams to Mermaid.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-03 16:11:42 -04:00
shankar0123 e8c64b47dd docs: rewrite why-certctl positioning page 
Fix stale competitive claims (IIS shipped in M39, target count now 10),
add 47-day operational math as forcing function, add credibility signals
(1554 tests, 97 API operations, CI pipeline), restructure competitive
comparisons by category for scannability, add "What Else Ships Free"
feature surface section, add "Who Should Look Elsewhere" disqualification,
move ownership message to opening paragraph.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-03 15:50:41 -04:00
shankar0123 9feb6c796d feat(M42): Postfix/Dovecot mail server target connector 
Dual-mode TLS connector for mail servers — single package with mode
field selecting Postfix or Dovecot defaults. File-based cert/key
deployment with correct permissions (cert 0644, key 0600), optional
chain append, shell injection prevention, and configurable
reload/validate commands. 18 tests covering config validation,
deployment, and security. GUI wizard fields and OpenAPI enum updated.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-03 01:46:15 -04:00
shankar0123 fd05bacb76 feat(M41): Envoy target connector with SDS support 
File-based deployment for Envoy service mesh — writes cert/key/chain
to watched directory with optional SDS JSON config for xDS bootstrap.
Path traversal prevention, configurable filenames, 15 tests passing.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-03 01:23:35 -04:00
shankar0123 f51571297d docs: update README for M39 WinRM completion 
Update test count (1,521+), IIS target description (local + WinRM),
architecture section (proxy agent mention), and integration list.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-02 21:00:39 -04:00
shankar0123 9a41d0ca39 feat(M39): IIS WinRM proxy agent mode + front-to-back wiring 
Complete the IIS target connector with dual-mode deployment:
- WinRM proxy agent mode via masterzen/winrm for remote Windows servers
- Base64 PFX transfer with try/finally cleanup on remote host
- GUI wizard updated with 13 IIS config fields including WinRM settings
- TargetDetailPage sensitive field redaction (password/secret/token/key)
- OpenAPI TargetType enum updated (added Traefik, Caddy)
- connectors.md fully documented with WinRM proxy config example
- 38 total IIS tests (10 new WinRM tests), all passing with race detection

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-02 20:53:20 -04:00
shankar0123 8b52da6aef feat(M39): IIS target connector + README overhaul 
Implement full IIS target connector with PEM-to-PFX conversion via
go-pkcs12, PowerShell-based deployment (Import-PfxCertificate, IIS
binding management), SHA-1 thumbprint computation, and SNI support.
Injectable PowerShellExecutor interface enables cross-platform testing.
Regex-validated config fields prevent PowerShell injection. 28 tests.

Restructure README from 563 to 313 lines: outcome-focused feature
descriptions, "Who Is This For" persona section, examples promoted
above the fold, configuration/API/security reference moved to docs.
All numbers verified against repo (25 GUI pages, 97 OpenAPI ops,
CI thresholds service 55%/handler 60%/domain 40%/middleware 30%).

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-02 20:27:27 -04:00
shankar0123 adfb682754 feat: Go integration test suite replacing bash end-to-end tests 
Refactors deploy/test/run-test.sh into a typed Go test file with
crypto/x509 certificate parsing, eliminating fragile openssl text
scraping. 12 phases, 35 subtests covering Local CA, ACME, step-ca,
revocation, discovery, renewal, EST, S/MIME, and API spot checks.

- testClient HTTP helper with Bearer auth
- testDB PostgreSQL helper (port 5432 now exposed)
- waitFor/waitForJobsDone polling helpers
- crypto/x509 for EKU, KeyUsage, SAN verification
- crypto/tls for NGINX deployment verification
- //go:build integration tag (not in CI yet)

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-02 19:04:26 -04:00
shankar0123 0822f748a5 feat: S/MIME certificate support in integration tests + test env docs 
Add S/MIME (emailProtection EKU) end-to-end test coverage:
- ValidateCommonName() now accepts email addresses for S/MIME certs
- S/MIME test profile (prof-test-smime) in seed data
- Phase 11 test: issuance, EKU, KeyUsage, email SAN verification
- EST config enabled in test Docker Compose
- Portable KeyUsage parsing (awk, works on BSD/GNU)
- Full test environment documentation (docs/test-env.md)

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-02 18:32:57 -04:00
shankar0123 368ea681a5 fix: remove unused functions flagged by golangci-lint 
Remove signJWT (replaced by signJWTWithKID) and ecdsaPublicKeyToJWK
(dead code from JWE implementation) to pass CI lint checks.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-02 17:07:52 -04:00
shankar0123 b059ec930f fix: end-to-end certificate lifecycle bugs + integration test environment 
Fixes 12 production bugs preventing the full issuance→deployment flow
from working with ACME (Pebble/Let's Encrypt) and step-ca issuers:

ACME connector (acme.go):
- Save orderURI before WaitOrder overwrites it (Go crypto/acme bug)
- Add CreateOrderCert fallback via WaitOrder+FetchCert
- Remove defer-reset in ValidateConfig that caused nil pointer panic
- Add Insecure TLS option for self-signed ACME servers (Pebble)

step-ca connector (stepca.go, jwe.go):
- Real JWE provisioner key loading + decryption (was using ephemeral keys)
- Fix JWT audience (/1.0/sign), sha claim (key fingerprint), kid header
- Custom root CA trust via RootCertPath config
- Remove hardcoded 90-day validity default (let step-ca decide)

NGINX target connector (nginx.go):
- Use sh -c for validate/reload commands (shell interpretation)
- Use filepath.Dir instead of fragile string slicing
- Add private key file writing (agent-mode keys were never deployed)
- Make chain_path write conditional

Server/service layer:
- TriggerRenewalWithActor now creates actual Job records (was no-op)
- createDeploymentJobs falls back to DB query when cert.TargetIDs empty
- ProcessPendingJobs skips agent-routed deployment jobs
- Agent cert pickup path parsing: len(parts)<4 → len(parts)<3
- Health/ready/auth-info endpoints bypass auth middleware
- Write timeout 15s→120s for ACME issuance
- Cert fingerprint computed on CSR submission

Integration test environment (deploy/test/):
- 10-phase test script covering Local CA, ACME, step-ca, revocation,
  discovery, renewal, and API spot checks
- Docker Compose with 7 containers (server, agent, postgres, nginx,
  pebble, challtestsrv, step-ca) on isolated network
- TLS verification checks SAN (not just Subject CN) for modern CA compat

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-04-02 17:02:20 -04:00
shankar0123 2238f28610 fix: left-align gantt bars for visual lifespan comparison 
All bars start from the same point so the shrinking from 1825
days to 47 days is visually obvious. Section labels indicate
the policy year, bar length shows the max certificate lifespan.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-03-30 22:23:20 -04:00
shankar0123 bbba618beb fix: gantt chart bars now represent actual certificate lifespans 
Each bar starts at the policy effective date and its length equals
the max certificate lifespan in days. The visual shrinking from
1825 days (2015) to 47 days (2029) tells the story accurately.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-03-30 22:22:00 -04:00
shankar0123 cfc4d3f3e8 revert: restore timeline diagram, gantt chart was misleading 
The gantt bars spanned between date ranges which misrepresented
the data. The timeline diagram correctly maps each date to its
maximum certificate lifespan.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-03-30 22:20:50 -04:00
shankar0123 c06d23dd7a chore: replace timeline diagram with gantt chart to remove arrows 
Mermaid timeline diagrams render dashed downward arrows that can't
be hidden. Switched to gantt chart for a cleaner horizontal bar
visualization showing TLS certificate lifespan reduction from
5 years (2015) to 47 days (2029).

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
 2026-03-30 22:19:40 -04:00
65 changed files with 13519 additions and 815 deletions
Expand all files Collapse all files
README.md
+109 -346
View File
@@ -14,66 +14,63 @@
TLS certificate lifespans are shrinking fast. The CA/Browser Forum passed [Ballot SC-081v3](https://cabforum.org/2025/04/11/ballot-sc081v3-introduce-schedule-of-reducing-validity-and-data-reuse-periods/) unanimously in April 2025, setting a phased reduction: **200 days** by March 2026, **100 days** by March 2027, and **47 days** by March 2029. Organizations managing dozens or hundreds of certificates can no longer rely on spreadsheets, calendar reminders, or manual renewal workflows. The math doesn't work — at 47-day lifespans, a team managing 100 certificates is processing 7+ renewals per week, every week, forever.
certctl is a self-hosted platform that automates the entire certificate lifecycle — from issuance through renewal to deployment — with zero human intervention. It works with any certificate authority, deploys to any server, and keeps private keys on your infrastructure where they belong.
certctl is a self-hosted platform that automates the entire certificate lifecycle — from issuance through renewal to deployment — with zero human intervention. It works with any certificate authority, deploys to any server, and keeps private keys on your infrastructure where they belong. It's free, self-hosted, and covers the same lifecycle that enterprise platforms charge $100K+/year for.
```mermaid
timeline
title TLS Certificate Maximum Lifespan (CA/Browser Forum Ballot SC-081v3)
2015 : 5 years
2018 : 825 days
2020 : 398 days
March 2026 : 200 days
March 2027 : 100 days
March 2029 : 47 days
gantt
title TLS Certificate Maximum Lifespan CA/Browser Forum Ballot SC-081v3
dateFormat YYYY-MM-DD
axisFormat
todayMarker off
section 2015
5 years (1825 days) :done, 2020-01-01, 1825d
section 2018
825 days :done, 2020-01-01, 825d
section 2020
398 days :active, 2020-01-01, 398d
section 2026
200 days :crit, 2020-01-01, 200d
section 2027
100 days :crit, 2020-01-01, 100d
section 2029
47 days :crit, 2020-01-01, 47d
```
## Documentation
| Guide | Description |
|-------|-------------|
| [Why certctl?](docs/why-certctl.md) | Competitive positioning — how certctl compares to open-source and enterprise certificate management platforms |
| [Concepts](docs/concepts.md) | TLS certificates explained from scratch — for beginners who know nothing about certs |
| [Quick Start](docs/quickstart.md) | Get running in 5 minutes — dashboard, API, CLI, discovery, stakeholder demo flow |
| [Advanced Demo](docs/demo-advanced.md) | Issue a certificate end-to-end with technical deep-dives |
| [Architecture](docs/architecture.md) | System design, data flow diagrams, security model |
| [Feature Inventory](docs/features.md) | Complete reference of all V2 capabilities, API endpoints, and configuration |
| [Connectors](docs/connectors.md) | Build custom issuer, target, and notifier connectors |
| [Compliance Mapping](docs/compliance.md) | SOC 2 Type II, PCI-DSS 4.0, NIST SP 800-57 alignment guides |
| [Migrate from Certbot](docs/migrate-from-certbot.md) | Step-by-step migration from Certbot/Let's Encrypt cron jobs |
| [Migrate from acme.sh](docs/migrate-from-acmesh.md) | Migration guide for acme.sh users with DNS-01 scripts |
| [certctl for cert-manager Users](docs/certctl-for-cert-manager-users.md) | Using certctl alongside cert-manager for non-Kubernetes infrastructure |
> **Next release:** v2.1.0 will be tagged after the full V2 feature suite passes manual QA across all 34 sections of the [testing guide](docs/testing-guide.md). Automated CI (1,300+ Go tests + 211 frontend tests) gates every commit; the manual playbook covers integration, deployment, and UX verification that unit tests can't reach.
> **Actively maintained — shipping weekly.** Found something? [Open a GitHub issue](https://github.com/shankar0123/certctl/issues) — issues get triaged same-day. CI runs 1,554+ tests with race detection, static analysis, and vulnerability scanning on every commit.
## Why certctl Exists
Certificate lifecycle tooling today falls into two camps: expensive enterprise platforms (Venafi, Keyfactor, Sectigo) that cost six figures and take months to deploy, or single-purpose tools (cert-manager, certbot) that handle one slice of the problem. If you run a mixed infrastructure — some NGINX, some Apache, a few HAProxy nodes, maybe an F5 — and you need to manage certificates from multiple CAs, there's nothing self-hosted that covers the full lifecycle without vendor lock-in.
Certificate lifecycle tooling today falls into two camps: expensive enterprise platforms (Venafi, Keyfactor, Sectigo) that cost six figures and take months to deploy, or single-purpose tools (cert-manager, certbot) that handle one slice of the problem. If you run a mixed infrastructure — some NGINX, some Apache, a few HAProxy nodes, IIS on Windows, maybe an F5 — and you need to manage certificates from multiple CAs, there's nothing self-hosted that covers the full lifecycle without vendor lock-in.
certctl fills that gap. It's **CA-agnostic** the issuer connector interface means you can plug in any certificate authority: a self-signed local CA for dev, Let's Encrypt via ACME for public certs, Smallstep step-ca for your private PKI, your enterprise ADCS via sub-CA mode, or any custom CA through a shell script adapter. You're never locked to a single CA vendor, and you can run multiple issuers simultaneously for different certificate types.
certctl fills that gap. It's **CA-agnostic** — plug in any certificate authority: Let's Encrypt via ACME, Smallstep step-ca, HashiCorp Vault PKI, DigiCert CertCentral, your enterprise ADCS via sub-CA mode, or any custom CA through a shell script adapter. Run multiple issuers simultaneously for different certificate types.
It's also **target-agnostic**. Agents deploy certificates to NGINX, Apache, HAProxy, Traefik, and Caddy — all using the same pluggable connector model for any server that accepts cert files. The control plane never initiates outbound connections — agents poll for work, which means certctl works behind firewalls, across network zones, and in air-gapped environments.
It's **target-agnostic**. Agents deploy certificates to NGINX, Apache, HAProxy, Traefik, Caddy, Envoy, Postfix, Dovecot, and IIS (local PowerShell or remote WinRM) — all using the same pluggable connector model. The control plane never initiates outbound connections — agents poll for work, which means certctl works behind firewalls, across network zones, and in air-gapped environments.
For a detailed comparison with CertKit, KeyTalk, and enterprise platforms (Venafi, Keyfactor), see [Why certctl?](docs/why-certctl.md)
For a detailed comparison with CertKit, KeyTalk, and enterprise platforms, see [Why certctl?](docs/why-certctl.md)
## Who Is This For
**Platform engineering and DevOps teams** managing 10500+ certificates across mixed infrastructure who need automated renewal, deployment, and a single dashboard for visibility. If you're currently running certbot cron jobs, manually renewing certs, or stitching together scripts — certctl replaces all of that.
**Security and compliance teams** who need an immutable audit trail, certificate ownership tracking, policy enforcement, and evidence for SOC 2, PCI-DSS 4.0, or NIST SP 800-57 audits.
**Small teams without enterprise budgets** who need the lifecycle automation that Venafi and Keyfactor provide but can't justify six-figure licensing for a 50-server environment.
## What It Does
certctl gives you a single pane of glass for every TLS certificate in your organization:
- **Certificates renew and deploy themselves.** The scheduler monitors expiration, creates renewal jobs, issues certificates through your CA, and deploys them to target servers — all without human intervention. ACME ARI (RFC 9702) lets your CA tell certctl exactly when to renew.
- **Web dashboard** 24 operational pages: certificate inventory, deployment timeline with TLS verification, bulk operations (renew/revoke/reassign), discovery triage, network scan management, approval workflows, audit trail with CSV/JSON export, agent fleet overview with OS/arch grouping, short-lived credential monitoring, digest email preview
- **REST API** — 97 endpoints under `/api/v1/` + `/.well-known/est/` for complete automation, with sparse fields, sort, cursor pagination, and time-range filters
- **Agents** — generate private keys locally (ECDSA P-256), discover existing certs on disk (PEM/DER), submit CSRs only (private keys never leave your servers)
- **Network scanner** — discovers certificates on TLS endpoints across CIDR ranges without requiring agents, concurrent scanning with configurable timeouts
- **Certificate export** — PEM (JSON or file download) and PKCS#12 formats, with audit trail; private keys never included
- **S/MIME + EKU support** — issue certificates with emailProtection, codeSigning, timeStamping, clientAuth EKUs; email SAN routing for S/MIME
- **EST server** (RFC 7030) — device and WiFi certificate enrollment via industry-standard protocol
- **Post-deployment verification** — agent-side TLS probe confirms the target serves the correct certificate by SHA-256 fingerprint match
- **Approval workflows** — require human sign-off on renewals before deployment
- **Background scheduler** — 7 automated loops: renewal checks, job processing, agent health, notifications, short-lived cert expiry, network scanning, and scheduled certificate digest emails
- **ACME Renewal Information (ARI, RFC 9702)** — CA-directed renewal timing; certctl asks the CA when to renew instead of using fixed thresholds
- **Scheduled certificate digest emails** — HTML digest with certificate stats, expiration timeline, and job health; optional daily briefing via SMTP
- **Helm chart** — Production-ready Kubernetes deployment with server, PostgreSQL, and agent DaemonSet
- **You see everything in one place.** A 25-page operational dashboard shows every certificate across every server: status, ownership, expiration timeline, deployment history with TLS verification, discovery triage, and real-time agent fleet health. Bulk operations (renew, revoke, reassign) work across selections.
For the full capability breakdown — revocation infrastructure, policy engine, observability, EST enrollment, and more — see the [Feature Inventory](docs/features.md).
- **Private keys never leave your servers.** Agents generate ECDSA P-256 keys locally and submit only the CSR. The control plane never touches private keys. Post-deployment TLS verification confirms the right certificate is actually being served.
- **Discover what you don't know about.** Agents scan filesystems for existing PEM/DER certificates. The network scanner probes TLS endpoints across CIDR ranges without requiring agents. Both feed into a triage workflow where you claim, dismiss, or import discovered certificates.
- **Everything is auditable.** Immutable append-only audit trail records every lifecycle action, every API call, and every approval decision. Certificate digest emails deliver daily briefings. Prometheus metrics endpoint for Grafana dashboards.
- **Multiple interfaces for different workflows.** REST API (97 endpoints) for automation, CLI for scripting, MCP server for AI assistants (Claude, Cursor, Windsurf), EST server (RFC 7030) for device enrollment, Helm chart for Kubernetes, and the web dashboard for day-to-day operations.
For the full capability breakdown — revocation infrastructure (CRL + OCSP), policy engine, certificate profiles, S/MIME support, approval workflows, and more — see the [Feature Inventory](docs/features.md).
## Supported Integrations
@@ -87,8 +84,10 @@ For the full capability breakdown — revocation infrastructure, policy engine,
| OpenSSL / Custom CA | Implemented | `OpenSSL` |
| Vault PKI | Beta | `VaultPKI` |
| DigiCert CertCentral | Beta | `DigiCert` |
| Sectigo SCM | Beta | `Sectigo` |
| Google CAS | Beta | `GoogleCAS` |
**Vault PKI and DigiCert connectors are in beta.** If you hit any bugs or unexpected behavior, please [open a GitHub issue](https://github.com/shankar0123/certctl/issues) -- we're actively testing these and want to hear from real users.
**Vault PKI, DigiCert, Sectigo, and Google CAS connectors are in beta.** If you hit any bugs or unexpected behavior, please [open a GitHub issue](https://github.com/shankar0123/certctl/issues) -- we're actively testing these and want to hear from real users.
**Note:** ADCS integration is handled via the Local CA's sub-CA mode — certctl operates as a subordinate CA with its signing certificate issued by ADCS. Any CA with a shell-accessible signing interface can be integrated today via the OpenSSL/Custom CA connector.
@@ -100,8 +99,11 @@ For the full capability breakdown — revocation infrastructure, policy engine,
| HAProxy | Implemented | `HAProxy` |
| Traefik | Implemented | `Traefik` |
| Caddy | Implemented | `Caddy` |
| F5 BIG-IP | Interface only | `F5` |
| Microsoft IIS | Interface only | `IIS` |
| Envoy | Implemented | `Envoy` |
| Postfix | Implemented | `Postfix` |
| Dovecot | Implemented | `Dovecot` |
| Microsoft IIS | Implemented (local + WinRM) | `IIS` |
| F5 BIG-IP | Beta | `F5` |
### Notifiers
| Notifier | Status | Type |
@@ -134,7 +136,7 @@ All connectors are pluggable — build your own by implementing the [connector i
<td><a href="docs/screenshots/v2-issuers.png"><img src="docs/screenshots/v2-issuers.png" width="270" alt="Issuers"></a><br><b>Issuers</b><br><sub>Local CA, ACME, step-ca, Vault PKI, DigiCert</sub></td>
</tr>
<tr>
<td><a href="docs/screenshots/v2-targets.png"><img src="docs/screenshots/v2-targets.png" width="270" alt="Targets"></a><br><b>Targets</b><br><sub>NGINX, Apache, HAProxy, Traefik, Caddy deployment</sub></td>
<td><a href="docs/screenshots/v2-targets.png"><img src="docs/screenshots/v2-targets.png" width="270" alt="Targets"></a><br><b>Targets</b><br><sub>NGINX, Apache, HAProxy, Traefik, Caddy, IIS deployment</sub></td>
<td><a href="docs/screenshots/v2-owners.png"><img src="docs/screenshots/v2-owners.png" width="270" alt="Owners"></a><br><b>Owners</b><br><sub>Cert ownership with team assignment</sub></td>
<td><a href="docs/screenshots/v2-teams.png"><img src="docs/screenshots/v2-teams.png" width="270" alt="Teams"></a><br><b>Teams</b><br><sub>Org grouping for notification routing</sub></td>
</tr>
@@ -145,17 +147,8 @@ All connectors are pluggable — build your own by implementing the [connector i
</tr>
</table>
> **24 operational GUI pages** covering the full certificate lifecycle: dashboard, certificates (list + detail with EKU badges, deployment timeline, TLS verification status), agents, fleet overview, jobs (list + detail with approval workflow), notifications, policies, profiles, issuers (catalog + detail), targets (list + detail + wizard), owners, teams, agent groups, audit trail, short-lived credentials, discovery triage, network scan management, digest email preview, and observability metrics.
## Quick Start
### Docker Pull
```bash
docker pull shankar0123.docker.scarf.sh/certctl-server
docker pull shankar0123.docker.scarf.sh/certctl-agent
```
### Docker Compose (Recommended)
```bash
@@ -168,7 +161,6 @@ Wait ~30 seconds, then open **http://localhost:8443** in your browser.
The dashboard comes pre-loaded with 32 demo certificates across 7 issuers, 8 agents, 180 days of job history, discovery scan data, and network scan targets — a realistic snapshot of a certificate inventory that looks like it's been running for months.
Verify the API:
```bash
curl http://localhost:8443/health
# {"status":"healthy"}
@@ -185,32 +177,30 @@ curl -sSL https://raw.githubusercontent.com/shankar0123/certctl/master/install-a
Detects your OS and architecture, downloads the binary, configures systemd (Linux) or launchd (macOS), and starts the agent. See [install-agent.sh](install-agent.sh) for details.
### Manual Build
### Docker Pull
```bash
# Prerequisites: Go 1.25+, PostgreSQL 16+, Docker (for testcontainers-go)
go mod download
make build
# Set up database
export CERTCTL_DATABASE_URL="postgres://certctl:certctl@localhost:5432/certctl?sslmode=disable"
export CERTCTL_AUTH_TYPE=none
make migrate-up
# Start server
./bin/server
# Start agent (separate terminal)
export CERTCTL_SERVER_URL=http://localhost:8443
export CERTCTL_API_KEY=change-me-in-production
export CERTCTL_AGENT_NAME=local-agent
export CERTCTL_AGENT_ID=agent-local-01
./bin/agent --agent-id=agent-local-01
docker pull shankar0123.docker.scarf.sh/certctl-server
docker pull shankar0123.docker.scarf.sh/certctl-agent
```
## Examples
Pick the scenario closest to your setup and have it running in 2 minutes.
| Example | Scenario |
|---------|----------|
| [`examples/acme-nginx/`](examples/acme-nginx/) | Let's Encrypt + NGINX, HTTP-01 challenges |
| [`examples/acme-wildcard-dns01/`](examples/acme-wildcard-dns01/) | Wildcard certs via DNS-01 (Cloudflare hook included) |
| [`examples/private-ca-traefik/`](examples/private-ca-traefik/) | Local CA (self-signed or sub-CA) + Traefik file provider |
| [`examples/step-ca-haproxy/`](examples/step-ca-haproxy/) | Smallstep step-ca + HAProxy combined PEM |
| [`examples/multi-issuer/`](examples/multi-issuer/) | ACME for public + Local CA for internal, one dashboard |
Each directory contains a `docker-compose.yml` and a `README.md` explaining the scenario, prerequisites, and customization.
## Architecture
**Control plane** (Go 1.25 net/http) → **PostgreSQL 16** (21 tables, TEXT primary keys) → **Agents** (key generation, CSR submission, cert deployment). Background scheduler runs 7 loops: renewal checks (1h), job processing (30s), agent health (2m), notifications (1m), short-lived cert expiry (30s), network scanning (6h), certificate digest (24h). See [Architecture Guide](docs/architecture.md) for full system diagrams and data flow.
**Control plane** (Go 1.25 net/http) → **PostgreSQL 16** (21 tables, TEXT primary keys) → **Agents** (key generation, CSR submission, cert deployment). For Windows servers without a local agent, a proxy agent in the same network zone handles deployment via WinRM. Background scheduler runs 7 loops: renewal checks (1h), job processing (30s), agent health (2m), notifications (1m), short-lived cert expiry (30s), network scanning (6h), certificate digest (24h). See [Architecture Guide](docs/architecture.md) for full system diagrams and data flow.
### Key Design Decisions
@@ -219,206 +209,20 @@ export CERTCTL_AGENT_ID=agent-local-01
- **Handler → Service → Repository layering.** Handlers define their own service interfaces for clean dependency inversion. No global service singletons.
- **Idempotent migrations.** All schema uses `IF NOT EXISTS` and seed data uses `ON CONFLICT (id) DO NOTHING`, safe for repeated execution.
PostgreSQL 16 with 21 tables covering certificates, versions, policies, issuers, targets, agents, jobs, teams, owners, profiles, agent groups, revocations, discovery, network scans, and audit events. See the [Architecture Guide](docs/architecture.md) for the full schema.
## Documentation
## Configuration
All environment variables use the `CERTCTL_` prefix. Full reference below (39 variables across server, agent, and connector config).
### Server — Core
| Variable | Default | Description |
|----------|---------|-------------|
| `CERTCTL_SERVER_HOST` | `127.0.0.1` | Server bind address |
| `CERTCTL_SERVER_PORT` | `8080` | Server listen port (165535) |
| `CERTCTL_DATABASE_URL` | `postgres://localhost/certctl` | PostgreSQL connection string (required) |
| `CERTCTL_DATABASE_MAX_CONNS` | `25` | PostgreSQL connection pool size (min 1) |
| `CERTCTL_DATABASE_MIGRATIONS_PATH` | `./migrations` | Path to migration SQL files |
| `CERTCTL_MAX_BODY_SIZE` | `1048576` | Max HTTP request body in bytes (default 1MB) |
| `CERTCTL_LOG_LEVEL` | `info` | Log verbosity: `debug`, `info`, `warn`, `error` |
| `CERTCTL_LOG_FORMAT` | `json` | Log format: `json` (structured) or `text` (human-readable) |
### Server — Auth, CORS, Rate Limiting
| Variable | Default | Description |
|----------|---------|-------------|
| `CERTCTL_AUTH_TYPE` | `api-key` | Auth mode: `api-key`, `jwt`, or `none` (demo only) |
| `CERTCTL_AUTH_SECRET` | — | Required for `api-key` and `jwt` auth types |
| `CERTCTL_CORS_ORIGINS` | *(empty = deny all)* | Comma-separated allowed origins, or `*` for dev |
| `CERTCTL_RATE_LIMIT_ENABLED` | `true` | Enable token bucket rate limiting |
| `CERTCTL_RATE_LIMIT_RPS` | `50` | Requests per second per client |
| `CERTCTL_RATE_LIMIT_BURST` | `100` | Max burst size |
| `CERTCTL_KEYGEN_MODE` | `agent` | Key generation: `agent` (production) or `server` (demo only) |
### Server — Scheduler
| Variable | Default | Description |
|----------|---------|-------------|
| `CERTCTL_SCHEDULER_RENEWAL_CHECK_INTERVAL` | `1h` | How often to check expiring certs (min 1m) |
| `CERTCTL_SCHEDULER_JOB_PROCESSOR_INTERVAL` | `30s` | How often to process pending jobs (min 1s) |
| `CERTCTL_SCHEDULER_AGENT_HEALTH_CHECK_INTERVAL` | `2m` | Agent heartbeat check frequency (min 1s) |
| `CERTCTL_SCHEDULER_NOTIFICATION_PROCESS_INTERVAL` | `1m` | Notification send frequency (min 1s) |
### Server — Sub-CA Mode
| Variable | Default | Description |
|----------|---------|-------------|
| `CERTCTL_CA_CERT_PATH` | — | PEM-encoded CA certificate for sub-CA mode |
| `CERTCTL_CA_KEY_PATH` | — | PEM-encoded CA private key (RSA, ECDSA, PKCS#8) |
### Server — Feature Flags
| Variable | Default | Description |
|----------|---------|-------------|
| `CERTCTL_EST_ENABLED` | `false` | Enable RFC 7030 EST enrollment endpoints |
| `CERTCTL_EST_ISSUER_ID` | `iss-local` | Which issuer processes EST enrollments |
| `CERTCTL_EST_PROFILE_ID` | — | Constrain EST to a specific certificate profile |
| `CERTCTL_NETWORK_SCAN_ENABLED` | `false` | Enable server-side TLS network scanning |
| `CERTCTL_NETWORK_SCAN_INTERVAL` | `6h` | How often scheduled scans run |
| `CERTCTL_VERIFY_DEPLOYMENT` | `true` | TLS verification after certificate deployment |
| `CERTCTL_VERIFY_TIMEOUT` | `10s` | TLS probe timeout |
| `CERTCTL_VERIFY_DELAY` | `2s` | Delay before verification probe |
### Server — Notification Connectors
| Variable | Default | Description |
|----------|---------|-------------|
| `CERTCTL_SLACK_WEBHOOK_URL` | — | Slack incoming webhook URL (enables Slack) |
| `CERTCTL_SLACK_CHANNEL` | — | Override default webhook channel |
| `CERTCTL_SLACK_USERNAME` | `certctl` | Bot display name |
| `CERTCTL_TEAMS_WEBHOOK_URL` | — | Microsoft Teams webhook URL (enables Teams) |
| `CERTCTL_PAGERDUTY_ROUTING_KEY` | — | PagerDuty Events API v2 key (enables PagerDuty) |
| `CERTCTL_PAGERDUTY_SEVERITY` | `warning` | Event severity: `info`, `warning`, `error`, `critical` |
| `CERTCTL_OPSGENIE_API_KEY` | — | OpsGenie Alert API key (enables OpsGenie) |
| `CERTCTL_OPSGENIE_PRIORITY` | `P3` | Alert priority: `P1``P5` |
### Agent
| Variable | Default | Description |
|----------|---------|-------------|
| `CERTCTL_SERVER_URL` | `http://localhost:8080` | Control plane URL |
| `CERTCTL_API_KEY` | — | Agent API key for authentication |
| `CERTCTL_AGENT_ID` | — | Registered agent ID (required) |
| `CERTCTL_KEY_DIR` | `/var/lib/certctl/keys` | Private key storage directory (0600 perms) |
| `CERTCTL_DISCOVERY_DIRS` | — | Directories to scan for existing certs (comma-separated) |
Docker Compose overrides for the demo stack are in `deploy/docker-compose.yml`.
## Development
```bash
# Install dev tools (golangci-lint, migrate CLI, air)
make install-tools
# Run tests
make test
# Run tests with race detection (same as CI)
go test -race ./internal/service/... ./internal/api/handler/... ./internal/api/middleware/... ./internal/scheduler/... ./internal/connector/... ./internal/domain/... ./internal/validation/...
# Run with coverage
make test-coverage
# Lint (runs golangci-lint with project config)
make lint
# Vulnerability scan
govulncheck ./...
# Format
make fmt
```
### CI Pipeline
Every push and PR runs: `go vet`, `go test -race` (race detection), `golangci-lint` (11 linters including gosec and bodyclose), `govulncheck` (dependency CVE scanning), and per-layer coverage thresholds (service 60%, handler 60%, domain 40%, middleware 50%). Frontend CI runs TypeScript type checking, Vitest tests, and Vite production build. See `.github/workflows/ci.yml` for details.
### Docker Compose
```bash
make docker-up # Start stack (server + postgres + agent)
make docker-down # Stop stack
make docker-logs-server # Server logs
make docker-logs-agent # Agent logs
make docker-clean # Stop + remove volumes
```
## Security
### Private Key Management
- **Agent keygen mode (default)**: Agents generate ECDSA P-256 keys locally and store them with 0600 permissions in `CERTCTL_KEY_DIR` (default `/var/lib/certctl/keys`). Only the CSR (public key) is sent to the control plane. Private keys never leave agent infrastructure.
- **Server keygen mode (demo only)**: Set `CERTCTL_KEYGEN_MODE=server` for development/demo with Local CA. The control plane generates RSA-2048 keys server-side. A log warning is emitted at startup.
### Authentication
- Agent-to-server: API key (registered at agent creation)
- API key and JWT auth types supported; `none` for demo/development
- Auth type and secret configured via `CERTCTL_AUTH_TYPE` and `CERTCTL_AUTH_SECRET`
### CORS
- **Deny-by-default**: Empty `CERTCTL_CORS_ORIGINS` blocks all cross-origin requests. Operators must explicitly list allowed origins (comma-separated) or set `*` for development.
### Input Validation
- Shell command injection prevention on all connector scripts (strict character whitelist, no metacharacters)
- RFC 1123 domain name validation, base64url ACME token validation
- SSRF protection in network scanner (loopback, link-local, multicast, broadcast ranges filtered)
### Concurrency Safety
- Scheduler loops protected by `sync/atomic.Bool` idempotency guards — duplicate ticks are skipped
- Graceful shutdown waits up to 30 seconds for in-flight work before database close
### Audit Trail
- Immutable append-only log in PostgreSQL (`audit_events` table)
- Every lifecycle action attributed to an actor with timestamp and resource reference
- No update or delete operations on audit records
- Every API call recorded to audit trail with method, path, actor, SHA-256 body hash, response status, and latency
## API Overview
97 endpoints under `/api/v1/` + `/.well-known/est/`, all returning JSON. List endpoints support pagination, sparse field selection (`?fields=`), sort (`?sort=-notAfter`), time-range filters, and cursor-based pagination. Full request/response schemas in the [OpenAPI 3.1 spec](api/openapi.yaml).
### Key Endpoints
```
# Certificate lifecycle
GET /api/v1/certificates List (filter, sort, cursor, sparse fields)
POST /api/v1/certificates/{id}/renew Trigger renewal → 202 Accepted
POST /api/v1/certificates/{id}/revoke Revoke with RFC 5280 reason code
GET /api/v1/certificates/{id}/export/pem Export PEM (JSON or file download)
POST /api/v1/certificates/{id}/export/pkcs12 Export PKCS#12 bundle (no private key)
GET /api/v1/crl/{issuer_id} DER-encoded X.509 CRL
GET /api/v1/ocsp/{issuer_id}/{serial} OCSP responder (good/revoked/unknown)
# Agent operations
POST /api/v1/agents/{id}/csr Submit CSR for issuance
GET /api/v1/agents/{id}/work Poll for pending deployment jobs
POST /api/v1/agents/{id}/discoveries Submit certificate discovery scan results
# Discovery & network scanning
GET /api/v1/discovered-certificates List discovered certs (?agent_id, ?status)
POST /api/v1/discovered-certificates/{id}/claim Link to managed cert
POST /api/v1/network-scan-targets/{id}/scan Trigger immediate TLS scan
# Jobs & approval
POST /api/v1/jobs/{id}/approve Approve interactive renewal
POST /api/v1/jobs/{id}/reject Reject interactive renewal
# Post-deployment verification
POST /api/v1/jobs/{id}/verify Submit TLS verification result
GET /api/v1/jobs/{id}/verification Get verification status
# Observability
GET /api/v1/metrics/prometheus Prometheus exposition format
GET /api/v1/stats/summary Dashboard summary
# Digest emails (scheduled briefing)
GET /api/v1/digest/preview HTML email preview
POST /api/v1/digest/send Send digest immediately
# EST enrollment (RFC 7030)
POST /.well-known/est/simpleenroll Device certificate enrollment
GET /.well-known/est/cacerts CA certificate chain (PKCS#7)
```
Full CRUD is available for certificates, agents, issuers, targets, teams, owners, policies, profiles, agent groups, notifications, and audit events. See the [OpenAPI spec](api/openapi.yaml) or [Feature Inventory](docs/features.md) for the complete endpoint reference.
| Guide | Description |
|-------|-------------|
| [Why certctl?](docs/why-certctl.md) | How certctl compares to ACME clients, agent-based SaaS, and enterprise platforms |
| [Concepts](docs/concepts.md) | TLS certificates explained from scratch — for beginners who know nothing about certs |
| [Quick Start](docs/quickstart.md) | 5-minute setup — dashboard, API, CLI, discovery, stakeholder demo flow |
| [Deployment Examples](docs/examples.md) | 5 turnkey scenarios (ACME+NGINX, wildcard DNS-01, private CA, step-ca, multi-issuer) with migration guides |
| [Advanced Demo](docs/demo-advanced.md) | Issue a certificate end-to-end with technical deep-dives |
| [Architecture](docs/architecture.md) | System design, data flow diagrams, security model |
| [Feature Inventory](docs/features.md) | Complete reference of all V2 capabilities, API endpoints, and configuration |
| [Connector Reference](docs/connectors.md) | Configuration for all 7 issuers, 10 targets, and 5 notifier connectors |
| [Compliance Mapping](docs/compliance.md) | SOC 2 Type II, PCI-DSS 4.0, NIST SP 800-57 alignment guides |
| [OpenAPI 3.1 Spec](api/openapi.yaml) | 97 operations, full request/response schemas |
## CLI
@@ -430,38 +234,26 @@ go install github.com/shankar0123/certctl/cmd/cli@latest
export CERTCTL_SERVER_URL=http://localhost:8443
export CERTCTL_API_KEY=your-api-key
# Certificate commands
# Usage
certctl-cli certs list # List all certificates
certctl-cli certs get mc-api-prod # Get certificate details
certctl-cli certs renew mc-api-prod # Trigger renewal
certctl-cli certs revoke mc-api-prod --reason keyCompromise
# Agent and job commands
certctl-cli agents list # List registered agents
certctl-cli jobs list # List jobs
certctl-cli jobs cancel job-123 # Cancel a pending job
# Operations
certctl-cli status # Server health + summary stats
certctl-cli import certs.pem # Bulk import from PEM file
# Output formats
certctl-cli certs list --format json # JSON output (default: table)
```
## MCP Server (AI Integration)
certctl ships a standalone MCP (Model Context Protocol) server that exposes all 80 API endpoints as tools for AI assistants — Claude, Cursor, Windsurf, OpenClaw, VS Code Copilot, and any MCP-compatible client.
certctl ships a standalone MCP (Model Context Protocol) server that exposes all API endpoints as tools for AI assistants — Claude, Cursor, Windsurf, OpenClaw, VS Code Copilot, and any MCP-compatible client.
```bash
# Install
# Install and run
go install github.com/shankar0123/certctl/cmd/mcp-server@latest
# Configure
export CERTCTL_SERVER_URL=http://localhost:8443
export CERTCTL_API_KEY=your-api-key
# Run (stdio transport — add to your AI client config)
mcp-server
```
@@ -480,73 +272,44 @@ mcp-server
}
```
## Security
certctl is designed with a security-first architecture. Agents generate ECDSA P-256 keys locally — private keys never touch the control plane. API key auth is enforced by default with SHA-256 hashing and constant-time comparison. CORS is deny-by-default. All connector scripts are validated against shell injection. The network scanner filters reserved IP ranges (SSRF protection). Scheduler loops use atomic idempotency guards. Every API call is recorded to an immutable audit trail with actor attribution, SHA-256 body hash, and latency tracking. See the [Architecture Guide](docs/architecture.md) for the full security model.
## Development
```bash
make build # Build server + agent binaries
make test # Run tests
make lint # golangci-lint (11 linters)
govulncheck ./... # Vulnerability scan
make docker-up # Start Docker Compose stack
```
CI runs on every push: `go vet`, `go test -race`, `golangci-lint`, `govulncheck`, and per-layer coverage thresholds (service 55%, handler 60%, domain 40%, middleware 30%). Frontend CI runs TypeScript type checking, Vitest tests, and Vite production build.
## Roadmap
### V1 (v1.0.0)
### V1 (v1.0.0) — Shipped
Core lifecycle management — Local CA + ACME v2 issuers, NGINX target connector, agent-side key generation, API auth + rate limiting, React dashboard, CI pipeline with coverage gates, Docker images on GHCR.
### V2: Operational Maturity
### V2: Operational Maturity — Shipped
30+ milestones, 1,554+ tests. Sub-CA mode, ACME DNS-01/DNS-PERSIST-01, step-ca, Vault PKI, DigiCert CertCentral, OpenSSL/Custom CA issuers. NGINX, Apache, HAProxy, Traefik, Caddy, Envoy, Postfix, Dovecot, IIS targets. RFC 5280 revocation with CRL + OCSP. Certificate profiles, ownership tracking, approval workflows. Filesystem and network certificate discovery. Prometheus metrics, dashboard charts, agent fleet overview. EST server (RFC 7030), ACME ARI (RFC 9702), certificate export, S/MIME support, Helm chart, MCP server, CLI, scheduled digest emails. Slack, Teams, PagerDuty, OpsGenie, SMTP notifications. Compliance mapping (SOC 2, PCI-DSS 4.0, NIST SP 800-57). See the [Feature Inventory](docs/features.md) for details.
30+ milestones complete, 1,500+ tests. See the [Feature Inventory](docs/features.md) for details on every capability.
**What shipped (all ✅):**
- **Issuers** — Sub-CA mode (enterprise root chains), ACME DNS-01 + DNS-PERSIST-01 (wildcard certs, any DNS provider), step-ca (native /sign API), OpenSSL/Custom CA (script-based signing), ACME ARI (RFC 9702, CA-directed renewal timing)
- **Revocation** — RFC 5280 reason codes, DER-encoded X.509 CRL, embedded OCSP responder, short-lived cert exemption
- **Profiles + Ownership** — certificate profiles (key types, max TTL, crypto constraints), ownership tracking (owners + teams), dynamic agent groups, interactive renewal approval
- **GUI Operations** — bulk renew/revoke/reassign, deployment timeline, inline policy editor, target wizard, audit export (CSV/JSON), short-lived credentials view
- **Discovery** — filesystem scanning (PEM/DER) + network TLS scanning (CIDR ranges), triage workflow (claim/dismiss), network scan target management
- **Observability** — Prometheus + JSON metrics, 5 stats API endpoints, dashboard charts (heatmap, trends, distribution), agent fleet overview, structured logging
- **EST Server** (RFC 7030) — device/WiFi certificate enrollment, PKCS#7 wire format, configurable issuer + profile binding
- **MCP Server** — 78 API operations as AI tools for Claude, Cursor, and any MCP-compatible client
- **CLI** — 10 subcommands (list/get/renew/revoke certs, list agents/jobs, import, status, health, metrics), JSON/table output
- **Notifications** — Email (SMTP), Webhooks, Slack, Microsoft Teams, PagerDuty, OpsGenie connectors
- **API Enhancements** — sparse fields, sort, time-range filters, cursor pagination, immutable API audit logging
- **Compliance Mapping** — SOC 2 Type II, PCI-DSS 4.0, NIST SP 800-57 alignment guides
- **Post-Deployment TLS Verification** — agent-side TLS probe confirms the target is serving the correct certificate by SHA-256 fingerprint match, verification status visible in deployment timeline
- **Traefik + Caddy Targets** — Traefik (file provider, auto-reload) and Caddy (Admin API hot-reload or file-based), both in target wizard GUI
- **Certificate Export** — PEM (JSON or file download) and PKCS#12 formats, private keys never included (agent-side only), audit trail, GUI export buttons
- **S/MIME Support** — EKU-aware issuance (emailProtection, codeSigning, timeStamping), adaptive KeyUsage flags, email SAN routing, EKU badges in GUI
- **ACME ARI (RFC 9702)** — CA-directed renewal timing: the CA tells certctl the optimal renewal window, gracefully degrading to fixed thresholds when ARI is unavailable
- **Scheduled Certificate Digest** — HTML email digests with certificate stats, expiration timeline, job trends, and agent health; configurable daily/hourly/weekly briefings via SMTP
- **Helm Chart** — Production-ready Kubernetes with server Deployment, PostgreSQL StatefulSet with PVC, Agent DaemonSet, security contexts, resource limits, optional Ingress
**Also shipped:**
- Issuer catalog page (see all supported CAs, configure from dashboard)
- Vault PKI and DigiCert CertCentral issuer connectors (Beta)
- Turnkey deployment examples (ACME+NGINX, wildcard+DNS-01, private CA+Traefik, step-ca+HAProxy, multi-issuer)
- Migration guides (Certbot, acme.sh, cert-manager complement)
- One-line agent install script with cross-compiled binaries
**Coming in v2.1.0:**
- Dynamic issuer and target configuration via GUI (no env var restarts)
- First-run onboarding wizard
**Coming in v2.1.0:** Dynamic issuer and target configuration via GUI (no env var restarts), first-run onboarding wizard.
### V3: certctl Pro
Team access controls, identity provider integration, enterprise deployment targets, compliance and risk scoring, advanced fleet operations, event-driven architecture, advanced search, real-time operational views.
Team access controls and identity provider integration (OIDC/SSO). Role-based access control with profile-gating. Event-driven architecture (NATS) with real-time operational views. Advanced search DSL, compliance and risk scoring, bulk fleet operations.
### V4+: Cloud, Scale & Passive Discovery
Passive network discovery (TLS listener), Kubernetes integration (cert-manager external issuer, Secrets target), cloud infrastructure targets (AWS ALB/ACM, Azure Key Vault), extended CA support (Google CAS, EJBCA, Sectigo), and platform-scale features (Terraform provider, multi-tenancy, HSM support).
## Examples
Turnkey Docker Compose configurations for common scenarios — pick the one closest to your setup and have it running in 2 minutes.
| Example | Scenario |
|---------|----------|
| [`examples/acme-nginx/`](examples/acme-nginx/) | Let's Encrypt + NGINX, HTTP-01 challenges |
| [`examples/acme-wildcard-dns01/`](examples/acme-wildcard-dns01/) | Wildcard certs via DNS-01 (Cloudflare hook included) |
| [`examples/private-ca-traefik/`](examples/private-ca-traefik/) | Local CA (self-signed or sub-CA) + Traefik file provider |
| [`examples/step-ca-haproxy/`](examples/step-ca-haproxy/) | Smallstep step-ca + HAProxy combined PEM |
| [`examples/multi-issuer/`](examples/multi-issuer/) | ACME for public + Local CA for internal, one dashboard |
Each directory contains a `docker-compose.yml` and a `README.md` explaining the scenario, prerequisites, and customization.
## License
Certctl is licensed under the [Business Source License 1.1](LICENSE). The source code is publicly available and free to use, modify, and self-host. The one restriction: you may not offer certctl as a managed/hosted certificate management service to third parties. The BSL 1.1 license converts automatically to Apache 2.0 on March 1, 2033, providing perpetual freedom.
For licensing inquiries: certctl@proton.me
---
If certctl solves a problem you have, [star the repo](https://github.com/shankar0123/certctl) to help others find it. Questions, bugs, or feature requests — [open an issue](https://github.com/shankar0123/certctl/issues).
api/openapi.yaml
+2 -2
View File
@@ -2643,7 +2643,7 @@ components:
# ─── Issuers ─────────────────────────────────────────────────────
IssuerType:
type: string
enum: [ACME, GenericCA, StepCA, VaultPKI, DigiCert]
enum: [ACME, GenericCA, StepCA, VaultPKI, DigiCert, Sectigo, GoogleCAS]
Issuer:
type: object
@@ -2669,7 +2669,7 @@ components:
# ─── Targets ─────────────────────────────────────────────────────
TargetType:
type: string
enum: [NGINX, Apache, HAProxy, F5, IIS]
enum: [NGINX, Apache, HAProxy, Traefik, Caddy, Envoy, Postfix, Dovecot, IIS, F5]
DeploymentTarget:
type: object
cmd/agent/main.go
+37 -2
View File
@@ -29,6 +29,8 @@ import (
"github.com/shankar0123/certctl/internal/connector/target"
"github.com/shankar0123/certctl/internal/connector/target/apache"
"github.com/shankar0123/certctl/internal/connector/target/caddy"
"github.com/shankar0123/certctl/internal/connector/target/envoy"
pf "github.com/shankar0123/certctl/internal/connector/target/postfix"
"github.com/shankar0123/certctl/internal/connector/target/f5"
"github.com/shankar0123/certctl/internal/connector/target/haproxy"
"github.com/shankar0123/certctl/internal/connector/target/iis"
@@ -583,7 +585,11 @@ func (a *Agent) createTargetConnector(targetType string, configJSON json.RawMess
return nil, fmt.Errorf("invalid F5 config: %w", err)
}
}
return f5.New(&cfg, a.logger), nil
conn, err := f5.New(&cfg, a.logger)
if err != nil {
return nil, fmt.Errorf("failed to create F5 connector: %w", err)
}
return conn, nil
case "IIS":
var cfg iis.Config
@@ -592,7 +598,7 @@ func (a *Agent) createTargetConnector(targetType string, configJSON json.RawMess
return nil, fmt.Errorf("invalid IIS config: %w", err)
}
}
return iis.New(&cfg, a.logger), nil
return iis.New(&cfg, a.logger)
case "Traefik":
var cfg traefik.Config
@@ -612,6 +618,35 @@ func (a *Agent) createTargetConnector(targetType string, configJSON json.RawMess
}
return caddy.New(&cfg, a.logger), nil
case "Envoy":
var cfg envoy.Config
if len(configJSON) > 0 {
if err := json.Unmarshal(configJSON, &cfg); err != nil {
return nil, fmt.Errorf("invalid Envoy config: %w", err)
}
}
return envoy.New(&cfg, a.logger), nil
case "Postfix":
var cfg pf.Config
cfg.Mode = "postfix"
if len(configJSON) > 0 {
if err := json.Unmarshal(configJSON, &cfg); err != nil {
return nil, fmt.Errorf("invalid Postfix config: %w", err)
}
}
return pf.New(&cfg, a.logger), nil
case "Dovecot":
var cfg pf.Config
cfg.Mode = "dovecot"
if len(configJSON) > 0 {
if err := json.Unmarshal(configJSON, &cfg); err != nil {
return nil, fmt.Errorf("invalid Dovecot config: %w", err)
}
}
return pf.New(&cfg, a.logger), nil
default:
return nil, fmt.Errorf("unsupported target type: %s", targetType)
}
cmd/server/main.go
+71 -6
View File
@@ -22,6 +22,8 @@ import (
digicertissuer "github.com/shankar0123/certctl/internal/connector/issuer/digicert"
opensslissuer "github.com/shankar0123/certctl/internal/connector/issuer/openssl"
stepcaissuer "github.com/shankar0123/certctl/internal/connector/issuer/stepca"
googlecasissuer "github.com/shankar0123/certctl/internal/connector/issuer/googlecas"
sectigoissuer "github.com/shankar0123/certctl/internal/connector/issuer/sectigo"
vaultissuer "github.com/shankar0123/certctl/internal/connector/issuer/vault"
notifyemail "github.com/shankar0123/certctl/internal/connector/notifier/email"
notifyopsgenie "github.com/shankar0123/certctl/internal/connector/notifier/opsgenie"
@@ -112,6 +114,7 @@ func main() {
DNSPresentScript: os.Getenv("CERTCTL_ACME_DNS_PRESENT_SCRIPT"),
DNSCleanUpScript: os.Getenv("CERTCTL_ACME_DNS_CLEANUP_SCRIPT"),
DNSPersistIssuerDomain: os.Getenv("CERTCTL_ACME_DNS_PERSIST_ISSUER_DOMAIN"),
Insecure: cfg.ACME.Insecure,
}, logger)
logger.Info("initialized ACME issuer connector")
@@ -119,6 +122,7 @@ func main() {
// Uses the native /sign API with JWK provisioner authentication.
stepcaConnector := stepcaissuer.New(&stepcaissuer.Config{
CAURL: os.Getenv("CERTCTL_STEPCA_URL"),
RootCertPath: os.Getenv("CERTCTL_STEPCA_ROOT_CERT"),
ProvisionerName: os.Getenv("CERTCTL_STEPCA_PROVISIONER"),
ProvisionerKeyPath: os.Getenv("CERTCTL_STEPCA_KEY_PATH"),
ProvisionerPassword: os.Getenv("CERTCTL_STEPCA_PASSWORD"),
@@ -156,6 +160,30 @@ func main() {
}, logger)
logger.Info("initialized DigiCert CertCentral issuer connector")
// Initialize Sectigo SCM issuer connector (for enterprise public CA).
// Uses the Sectigo SCM REST API with async order model.
sectigoConnector := sectigoissuer.New(&sectigoissuer.Config{
CustomerURI: cfg.Sectigo.CustomerURI,
Login: cfg.Sectigo.Login,
Password: cfg.Sectigo.Password,
OrgID: cfg.Sectigo.OrgID,
CertType: cfg.Sectigo.CertType,
Term: cfg.Sectigo.Term,
BaseURL: cfg.Sectigo.BaseURL,
}, logger)
logger.Info("initialized Sectigo SCM issuer connector")
// Initialize Google CAS issuer connector (for GCP private CA).
// Uses the Google CAS REST API with OAuth2 service account auth.
googlecasConnector := googlecasissuer.New(&googlecasissuer.Config{
Project: cfg.GoogleCAS.Project,
Location: cfg.GoogleCAS.Location,
CAPool: cfg.GoogleCAS.CAPool,
Credentials: cfg.GoogleCAS.Credentials,
TTL: cfg.GoogleCAS.TTL,
}, logger)
logger.Info("initialized Google CAS issuer connector")
// Build issuer registry: maps issuer IDs (from database) to connector implementations.
// "iss-local" matches the seed data issuer ID for the Local CA.
// "iss-acme-staging" and "iss-acme-prod" are conventional IDs for ACME issuers.
@@ -181,6 +209,18 @@ func main() {
logger.Info("DigiCert CertCentral issuer registered", "id", "iss-digicert")
}
// Conditionally register Sectigo SCM (only if all 3 auth credentials are set)
if cfg.Sectigo.CustomerURI != "" && cfg.Sectigo.Login != "" && cfg.Sectigo.Password != "" {
issuerRegistry["iss-sectigo"] = service.NewIssuerConnectorAdapter(sectigoConnector)
logger.Info("Sectigo SCM issuer registered", "id", "iss-sectigo")
}
// Conditionally register Google CAS (only if project and credentials are set)
if cfg.GoogleCAS.Project != "" && cfg.GoogleCAS.Credentials != "" {
issuerRegistry["iss-googlecas"] = service.NewIssuerConnectorAdapter(googlecasConnector)
logger.Info("Google CAS issuer registered", "id", "iss-googlecas")
}
logger.Info("issuer registry configured", "issuers", len(issuerRegistry))
// Initialize revocation repository
@@ -261,6 +301,8 @@ func main() {
certificateService.SetRevocationSvc(revocationSvc)
certificateService.SetCAOperationsSvc(caOperationsSvc)
certificateService.SetTargetRepo(targetRepo)
certificateService.SetJobRepo(jobRepo)
certificateService.SetKeygenMode(cfg.Keygen.Mode)
renewalService := service.NewRenewalService(certificateRepo, jobRepo, renewalPolicyRepo, profileRepo, auditService, notificationService, issuerRegistry, cfg.Keygen.Mode)
renewalService.SetTargetRepo(targetRepo)
deploymentService := service.NewDeploymentService(jobRepo, targetRepo, agentRepo, certificateRepo, auditService, notificationService)
@@ -504,13 +546,28 @@ func main() {
if _, err := os.Stat(webDir + "/index.html"); err != nil {
webDir = "./web"
}
// Health/ready routes bypass the full middleware stack (no auth required).
// These are registered on the inner router without auth, but the outer
// middleware chain wraps everything. Route them directly to the inner router.
noAuthHandler := middleware.Chain(apiRouter,
middleware.RequestID,
structuredLogger,
middleware.Recovery,
)
if _, err := os.Stat(webDir + "/index.html"); err == nil {
fileServer := http.FileServer(http.Dir(webDir))
finalHandler = http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
path := r.URL.Path
// API, health, and EST routes go to the API handler
if path == "/health" || path == "/ready" ||
(len(path) >= 8 && path[:8] == "/api/v1/") ||
// Health/ready and auth/info bypass auth middleware.
// Health/ready: Docker/K8s health probes don't carry Bearer tokens.
// auth/info: React app calls this before login to detect auth mode.
if path == "/health" || path == "/ready" || path == "/api/v1/auth/info" {
noAuthHandler.ServeHTTP(w, r)
return
}
// All other API and EST routes go through the full middleware stack (with auth)
if (len(path) >= 8 && path[:8] == "/api/v1/") ||
(len(path) >= 16 && path[:16] == "/.well-known/est") {
apiHandler.ServeHTTP(w, r)
return
@@ -525,7 +582,15 @@ func main() {
})
logger.Info("dashboard available at /", "web_dir", webDir)
} else {
finalHandler = apiHandler
// No dashboard: route health/auth-info without auth, everything else through full stack
finalHandler = http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
path := r.URL.Path
if path == "/health" || path == "/ready" || path == "/api/v1/auth/info" {
noAuthHandler.ServeHTTP(w, r)
return
}
apiHandler.ServeHTTP(w, r)
})
logger.Info("dashboard directory not found, serving API only")
}
@@ -534,9 +599,9 @@ func main() {
httpServer := &http.Server{
Addr: addr,
Handler: finalHandler,
ReadTimeout: 15 * time.Second,
ReadTimeout: 30 * time.Second,
ReadHeaderTimeout: 5 * time.Second,
WriteTimeout: 15 * time.Second,
WriteTimeout: 120 * time.Second, // Must accommodate ACME issuance (order + challenge + finalize)
IdleTimeout: 60 * time.Second,
}
deploy/docker-compose.test.yml
+309
View File
@@ -0,0 +1,309 @@
# =============================================================================
# certctl Testing Environment — Docker Compose
# =============================================================================
#
# Spins up the full certctl platform with real CA backends for manual QA:
#
# 1. PostgreSQL 16 — database (clean, no demo data)
# 2. certctl-server — control plane API + web dashboard on :8443
# 3. certctl-agent — polls for work, deploys certs to NGINX
# 4. step-ca — private CA (JWK provisioner, auto-bootstraps)
# 5. Pebble — ACME test server (simulates Let's Encrypt)
# 6. pebble-challtestsrv — DNS/HTTP challenge test server for Pebble
# 7. NGINX — TLS target server on :8080 (HTTP) / :8444 (HTTPS)
#
# Usage:
# cd deploy
# docker compose -f docker-compose.test.yml up --build
#
# Dashboard: http://localhost:8443
# API key: test-key-2026
# NGINX: https://localhost:8444 (self-signed placeholder until cert deployed)
#
# See docs/test-env.md for the full walkthrough.
# =============================================================================
services:
# ---------------------------------------------------------------------------
# Database
# ---------------------------------------------------------------------------
postgres:
image: postgres:16-alpine
container_name: certctl-test-postgres
environment:
POSTGRES_DB: certctl
POSTGRES_USER: certctl
POSTGRES_PASSWORD: testpass
volumes:
- test_postgres_data:/var/lib/postgresql/data
- ../migrations/000001_initial_schema.up.sql:/docker-entrypoint-initdb.d/001_schema.sql
- ../migrations/000002_agent_metadata.up.sql:/docker-entrypoint-initdb.d/002_agent_metadata.sql
- ../migrations/000003_certificate_profiles.up.sql:/docker-entrypoint-initdb.d/003_certificate_profiles.sql
- ../migrations/000004_agent_groups.up.sql:/docker-entrypoint-initdb.d/004_agent_groups.sql
- ../migrations/000005_revocation.up.sql:/docker-entrypoint-initdb.d/005_revocation.sql
- ../migrations/000006_discovery.up.sql:/docker-entrypoint-initdb.d/006_discovery.sql
- ../migrations/000007_network_discovery.up.sql:/docker-entrypoint-initdb.d/007_network_discovery.sql
- ../migrations/000008_verification.up.sql:/docker-entrypoint-initdb.d/008_verification.sql
- ../migrations/seed.sql:/docker-entrypoint-initdb.d/010_seed.sql
- ../migrations/seed_test.sql:/docker-entrypoint-initdb.d/015_seed_test.sql
# No seed_demo.sql — start with a clean database for real testing
networks:
certctl-test:
ipv4_address: 10.30.50.2
ports:
- "5432:5432"
healthcheck:
test: ["CMD-SHELL", "pg_isready -U certctl -d certctl"]
interval: 5s
timeout: 5s
retries: 5
restart: unless-stopped
# ---------------------------------------------------------------------------
# Pebble — ACME test server (simulates Let's Encrypt)
# ---------------------------------------------------------------------------
# Pebble is the official ACME test server from Let's Encrypt (RFC 8555).
# It validates challenges via the companion challtestsrv.
# Root CA cert available at https://pebble:15000/roots/0 (management API).
pebble-challtestsrv:
image: ghcr.io/letsencrypt/pebble-challtestsrv:latest
container_name: certctl-test-challtestsrv
# ENTRYPOINT is /app (the binary). command: provides only the FLAGS.
# Matches the official Pebble docker-compose format.
# -doh "" disables DoH (default :8443 would conflict with certctl server).
# defaultIPv4 must point to the certctl-server (10.30.50.6) because that's where
# the ACME HTTP-01 challenge server runs (port 80 inside the container).
# Pebble resolves domains via challtestsrv, then connects to this IP to validate.
command: -defaultIPv4 10.30.50.6 -defaultIPv6 "" -doh ""
networks:
certctl-test:
ipv4_address: 10.30.50.3
restart: unless-stopped
pebble:
image: ghcr.io/letsencrypt/pebble:latest
container_name: certctl-test-pebble
depends_on:
- pebble-challtestsrv
environment:
PEBBLE_VA_NOSLEEP: 1
PEBBLE_VA_ALWAYS_VALID: 0
# ENTRYPOINT is /app (the binary). command: provides only the FLAGS.
command:
- -config
- /test/config/pebble-config.json
- -dnsserver
- "10.30.50.3:8053"
- -strict
volumes:
- ./test/pebble-config.json:/test/config/pebble-config.json:ro
networks:
certctl-test:
ipv4_address: 10.30.50.4
restart: unless-stopped
# ---------------------------------------------------------------------------
# step-ca — Private CA (Smallstep)
# ---------------------------------------------------------------------------
# Auto-bootstraps on first run: generates root CA + JWK provisioner "admin".
# Root cert: /home/step/certs/root_ca.crt (inside stepca_data volume)
# Provisioner key: /home/step/secrets/provisioner_key (encrypted JWK)
step-ca:
image: smallstep/step-ca:latest
container_name: certctl-test-stepca
environment:
DOCKER_STEPCA_INIT_NAME: "certctl-test-ca"
DOCKER_STEPCA_INIT_DNS_NAMES: "step-ca,localhost"
DOCKER_STEPCA_INIT_PROVISIONER_NAME: "admin"
DOCKER_STEPCA_INIT_PASSWORD: "password123"
DOCKER_STEPCA_INIT_ADDRESS: ":9000"
volumes:
- stepca_data:/home/step
networks:
certctl-test:
ipv4_address: 10.30.50.5
healthcheck:
test: ["CMD", "curl", "-fk", "https://localhost:9000/health"]
interval: 10s
timeout: 5s
start_period: 15s
retries: 10
restart: unless-stopped
# ---------------------------------------------------------------------------
# certctl Server (Control Plane)
# ---------------------------------------------------------------------------
# Connects to PostgreSQL, Pebble (ACME), step-ca, and Local CA.
#
# TLS trust problem: Pebble and step-ca use self-signed root CAs that
# aren't in Alpine's trust store. The ACME and step-ca connectors use
# Go's default http.Client (no InsecureSkipVerify), so they need the
# CA certs in the system trust store.
#
# Solution: setup-trust.sh runs as root, fetches Pebble CA from its
# management API, copies step-ca root cert from the shared volume,
# runs update-ca-certificates, then execs the server binary.
certctl-server:
build:
context: ..
dockerfile: Dockerfile
container_name: certctl-test-server
depends_on:
postgres:
condition: service_healthy
pebble:
condition: service_started
step-ca:
condition: service_healthy
# Run as root so update-ca-certificates can write to /etc/ssl/certs.
# Container isolation provides the security boundary.
user: "0:0"
entrypoint: ["/bin/sh", "/app/setup-trust.sh"]
environment:
# Database
CERTCTL_DATABASE_URL: postgres://certctl:testpass@postgres:5432/certctl?sslmode=disable
# Server
CERTCTL_SERVER_HOST: 0.0.0.0
CERTCTL_SERVER_PORT: 8443
CERTCTL_LOG_LEVEL: debug
# Auth — API key required (production-like)
CERTCTL_AUTH_TYPE: api-key
CERTCTL_AUTH_SECRET: test-key-2026
# Key generation — agent-side (production-like)
CERTCTL_KEYGEN_MODE: agent
# Local CA issuer (iss-local) — self-signed mode (no CA cert/key paths)
# This is the simplest issuer, always available.
# ACME issuer (iss-acme-staging) — pointed at Pebble
CERTCTL_ACME_DIRECTORY_URL: https://pebble:14000/dir
CERTCTL_ACME_EMAIL: test@certctl.dev
CERTCTL_ACME_CHALLENGE_TYPE: http-01
CERTCTL_ACME_INSECURE: "true"
# step-ca issuer (iss-stepca)
CERTCTL_STEPCA_URL: https://step-ca:9000
CERTCTL_STEPCA_ROOT_CERT: /stepca-data/certs/root_ca.crt
CERTCTL_STEPCA_PROVISIONER: admin
CERTCTL_STEPCA_PASSWORD: password123
CERTCTL_STEPCA_KEY_PATH: /stepca-data/secrets/provisioner_key
# EST server (RFC 7030) — uses Local CA by default
CERTCTL_EST_ENABLED: "true"
CERTCTL_EST_ISSUER_ID: iss-local
# Network scanning
CERTCTL_NETWORK_SCAN_ENABLED: "true"
# Post-deployment TLS verification
CERTCTL_VERIFY_DEPLOYMENT: "true"
CERTCTL_VERIFY_TIMEOUT: "10s"
CERTCTL_VERIFY_DELAY: "3s"
ports:
- "8443:8443"
volumes:
- ./test/setup-trust.sh:/app/setup-trust.sh:ro
# step-ca data volume (root cert at /certs/root_ca.crt, key at /secrets/provisioner_key)
- stepca_data:/stepca-data:ro
networks:
certctl-test:
ipv4_address: 10.30.50.6
healthcheck:
# /health requires auth when CERTCTL_AUTH_TYPE=api-key, so include the Bearer token
test: ["CMD", "curl", "-f", "-H", "Authorization: Bearer test-key-2026", "http://localhost:8443/health"]
interval: 10s
timeout: 5s
start_period: 30s
retries: 10
restart: unless-stopped
# ---------------------------------------------------------------------------
# NGINX — TLS Target Server
# ---------------------------------------------------------------------------
# The agent deploys certificates here via the shared nginx_certs volume.
# nginx-entrypoint.sh generates a self-signed placeholder cert so NGINX
# can boot before the agent deploys a real cert.
#
# Ports: 8080 (HTTP) / 8444 (HTTPS) — offset to avoid conflict with server.
nginx:
image: nginx:alpine
container_name: certctl-test-nginx
entrypoint: ["/bin/sh", "/entrypoint.sh"]
volumes:
- ./test/nginx.conf:/etc/nginx/nginx.conf:ro
- ./test/nginx-entrypoint.sh:/entrypoint.sh:ro
- nginx_certs:/etc/nginx/certs
ports:
- "8080:80"
- "8444:443"
networks:
certctl-test:
ipv4_address: 10.30.50.7
healthcheck:
test: ["CMD-SHELL", "curl -fk https://localhost/health || exit 1"]
interval: 10s
timeout: 5s
start_period: 15s
retries: 5
restart: unless-stopped
# ---------------------------------------------------------------------------
# certctl Agent
# ---------------------------------------------------------------------------
# Polls the server for work, generates ECDSA P-256 keys locally,
# deploys certs to NGINX via the shared volume, and discovers existing
# certs in the NGINX cert directory.
certctl-agent:
build:
context: ..
dockerfile: Dockerfile.agent
container_name: certctl-test-agent
depends_on:
certctl-server:
condition: service_healthy
environment:
CERTCTL_SERVER_URL: http://certctl-server:8443
CERTCTL_API_KEY: test-key-2026
CERTCTL_AGENT_NAME: test-agent-01
CERTCTL_AGENT_ID: agent-test-01
CERTCTL_KEYGEN_MODE: agent
CERTCTL_LOG_LEVEL: debug
CERTCTL_DISCOVERY_DIRS: /nginx-certs
volumes:
- agent_keys:/var/lib/certctl/keys
- nginx_certs:/nginx-certs
networks:
certctl-test:
ipv4_address: 10.30.50.8
restart: unless-stopped
# =============================================================================
# Network
# =============================================================================
# Static IPs are required because:
# - Pebble needs to know the challtestsrv DNS server address (10.30.50.3)
# - challtestsrv resolves all domains to certctl-server (10.30.50.6) for HTTP-01 challenges
# - Avoids DNS race conditions during startup
networks:
certctl-test:
driver: bridge
ipam:
config:
- subnet: 10.30.50.0/24
# =============================================================================
# Volumes
# =============================================================================
volumes:
test_postgres_data:
driver: local
stepca_data:
driver: local
agent_keys:
driver: local
nginx_certs:
driver: local
deploy/test/integration_test.go
+1126
View File
File diff suppressed because it is too large Load Diff
deploy/test/nginx-entrypoint.sh
Executable
+27
View File
@@ -0,0 +1,27 @@
#!/bin/sh
# Generate a self-signed placeholder certificate so NGINX can boot
# before the certctl agent deploys a real certificate.
# Once the agent deploys, it overwrites these files and reloads NGINX.
CERT_DIR="/etc/nginx/certs"
mkdir -p "$CERT_DIR"
# Make cert directory world-writable so the certctl-agent container
# (which shares this volume) can overwrite the placeholder certs.
chmod 777 "$CERT_DIR"
if [ ! -f "$CERT_DIR/cert.pem" ]; then
echo "Generating self-signed placeholder certificate..."
apk add --no-cache openssl > /dev/null 2>&1
openssl req -x509 -nodes -days 1 -newkey ec -pkeyopt ec_paramgen_curve:prime256v1 \
-keyout "$CERT_DIR/key.pem" \
-out "$CERT_DIR/cert.pem" \
-subj "/CN=placeholder.certctl.test" \
2>/dev/null
# Make placeholder certs writable by the agent container
chmod 666 "$CERT_DIR/cert.pem" "$CERT_DIR/key.pem"
echo "Placeholder certificate generated."
fi
# Start NGINX in foreground
exec nginx -g "daemon off;"
deploy/test/nginx.conf
+42
View File
@@ -0,0 +1,42 @@
# NGINX configuration for certctl test environment.
# The agent deploys certificates to /etc/nginx/certs/ and reloads NGINX.
# On startup, NGINX uses a self-signed placeholder so it can boot before any cert is deployed.
# Generate a self-signed placeholder on container start (see entrypoint in compose).
# Once the agent deploys a real cert, it overwrites these files and reloads.
events {
worker_connections 1024;
}
http {
# HTTP → redirect to HTTPS (optional, for realism)
server {
listen 80;
server_name _;
return 301 https://$host$request_uri;
}
# HTTPS server — serves whatever cert the agent has deployed
server {
listen 443 ssl;
server_name _;
ssl_certificate /etc/nginx/certs/cert.pem;
ssl_certificate_key /etc/nginx/certs/key.pem;
# Modern TLS settings
ssl_protocols TLSv1.2 TLSv1.3;
ssl_prefer_server_ciphers off;
location / {
default_type text/plain;
return 200 'certctl test environment NGINX is serving TLS\n';
}
location /health {
default_type text/plain;
return 200 'ok\n';
}
}
}
deploy/test/pebble-config.json
+16
View File
@@ -0,0 +1,16 @@
{
"pebble": {
"listenAddress": "0.0.0.0:14000",
"managementListenAddress": "0.0.0.0:15000",
"certificate": "test/certs/localhost/cert.pem",
"privateKey": "test/certs/localhost/key.pem",
"httpPort": 80,
"tlsPort": 443,
"ocspResponderURL": "",
"externalAccountBindingRequired": false,
"retryAfter": {
"authz": 3,
"order": 5
}
}
}
deploy/test/run-test.sh
Executable
+937
View File
@@ -0,0 +1,937 @@
#!/usr/bin/env bash
# =============================================================================
# certctl End-to-End Test Script
# =============================================================================
#
# Automates the full lifecycle test from docs/test-env.md:
# 1. Bring up all 7 containers (build from source)
# 2. Wait for every service to be healthy
# 3. Verify pre-seeded data (agents, issuers, targets, profiles)
# 4. Issue a certificate via Local CA → deploy to NGINX → verify TLS
# 5. Issue a certificate via ACME/Pebble → verify
# 6. Issue a certificate via step-ca → verify
# 7. Test revocation + CRL
# 8. Test discovery
# 9. Test renewal (re-issue step-ca cert, check version history)
# 10. EST enrollment (RFC 7030) — cacerts + simpleenroll
# 11. S/MIME issuance — emailProtection EKU + adaptive KeyUsage
# 12. API spot checks + print summary
#
# Usage:
# cd certctl/deploy
# ./test/run-test.sh # full run (build + test)
# ./test/run-test.sh --no-build # skip docker build, reuse existing containers
# ./test/run-test.sh --no-teardown # leave containers running after test
#
# Requirements: docker, curl, openssl, jq (or python3 for json parsing)
# =============================================================================
set -euo pipefail
# ---------------------------------------------------------------------------
# Config
# ---------------------------------------------------------------------------
COMPOSE_FILE="docker-compose.test.yml"
API_URL="http://localhost:8443"
API_KEY="test-key-2026"
NGINX_TLS="localhost:8444"
AUTH_HEADER="Authorization: Bearer ${API_KEY}"
# Flags
BUILD=true
TEARDOWN=true
for arg in "$@"; do
case "$arg" in
--no-build) BUILD=false ;;
--no-teardown) TEARDOWN=false ;;
esac
done
# ---------------------------------------------------------------------------
# Helpers
# ---------------------------------------------------------------------------
RED='\033[0;31m'
GREEN='\033[0;32m'
YELLOW='\033[1;33m'
CYAN='\033[0;36m'
BOLD='\033[1m'
NC='\033[0m' # No Color
PASS=0
FAIL=0
SKIP=0
pass() {
PASS=$((PASS + 1))
echo -e " ${GREEN}PASS${NC} $1"
}
fail() {
FAIL=$((FAIL + 1))
echo -e " ${RED}FAIL${NC} $1"
if [ -n "${2:-}" ]; then
echo -e " ${RED}$2${NC}"
fi
}
skip() {
SKIP=$((SKIP + 1))
echo -e " ${YELLOW}SKIP${NC} $1"
}
info() {
echo -e "${CYAN}==>${NC} $1"
}
header() {
echo ""
echo -e "${BOLD}─── $1 ───${NC}"
}
# API helper: GET endpoint, return JSON body. Exits 1 on HTTP error.
api_get() {
local path="$1"
curl -sf -H "${AUTH_HEADER}" "${API_URL}${path}" 2>/dev/null
}
# API helper: POST with optional JSON body
api_post() {
local path="$1"
local body="${2:-}"
if [ -n "$body" ]; then
curl -sf -X POST -H "${AUTH_HEADER}" -H "Content-Type: application/json" \
-d "$body" "${API_URL}${path}" 2>/dev/null
else
curl -sf -X POST -H "${AUTH_HEADER}" "${API_URL}${path}" 2>/dev/null
fi
}
# Wait for an HTTP endpoint to return 200. Retries with backoff.
wait_for_http() {
local url="$1"
local label="$2"
local max_wait="${3:-120}"
local elapsed=0
local interval=3
while [ $elapsed -lt $max_wait ]; do
if curl -sf -H "${AUTH_HEADER}" "$url" >/dev/null 2>&1; then
return 0
fi
sleep $interval
elapsed=$((elapsed + interval))
done
return 1
}
# Extract a field from JSON using python3 (no jq dependency)
json_field() {
python3 -c "import sys,json; d=json.load(sys.stdin); print($1)" 2>/dev/null
}
# Wait for a job to reach a terminal state (Completed or Failed)
# Usage: wait_for_job <cert_id> <max_seconds>
# Returns 0 if Completed, 1 if Failed/timeout
wait_for_jobs_done() {
local cert_id="$1"
local max_wait="${2:-180}"
local elapsed=0
local interval=5
while [ $elapsed -lt $max_wait ]; do
local jobs_json
jobs_json=$(api_get "/api/v1/jobs" 2>/dev/null || echo '{"data":[]}')
# Check if all jobs for this cert are in terminal state
# API returns jobs under "data" key (not "jobs")
local pending
pending=$(echo "$jobs_json" | python3 -c "
import sys, json
data = json.load(sys.stdin)
jobs = data.get('data') or data.get('jobs') or []
active = [j for j in jobs if j.get('certificate_id') == '$cert_id'
and j.get('status') not in ('Completed', 'Failed', 'Cancelled')]
print(len(active))
" 2>/dev/null || echo "99")
if [ "$pending" = "0" ]; then
# Check how many jobs exist and their terminal states
local job_counts
job_counts=$(echo "$jobs_json" | python3 -c "
import sys, json
data = json.load(sys.stdin)
jobs = data.get('data') or data.get('jobs') or []
mine = [j for j in jobs if j.get('certificate_id') == '$cert_id']
completed = len([j for j in mine if j.get('status') == 'Completed'])
failed = len([j for j in mine if j.get('status') in ('Failed', 'Cancelled')])
print(f'{len(mine)} {completed} {failed}')
" 2>/dev/null || echo "0 0 0")
local total_jobs completed_jobs failed_jobs
total_jobs=$(echo "$job_counts" | cut -d' ' -f1)
completed_jobs=$(echo "$job_counts" | cut -d' ' -f2)
failed_jobs=$(echo "$job_counts" | cut -d' ' -f3)
if [ "$completed_jobs" -gt 0 ]; then
return 0 # At least one job completed successfully
fi
if [ "$total_jobs" -gt 0 ] && [ "$failed_jobs" -gt 0 ]; then
return 1 # All jobs are in terminal state but none completed — all failed
fi
fi
sleep $interval
elapsed=$((elapsed + interval))
done
return 1
}
# Get the TLS cert subject from NGINX for a given SNI
get_tls_subject() {
local sni="$1"
echo | openssl s_client -connect "$NGINX_TLS" -servername "$sni" 2>/dev/null \
| openssl x509 -noout -subject 2>/dev/null \
| sed 's/subject=//' | sed 's/^ *//'
}
get_tls_issuer() {
local sni="$1"
echo | openssl s_client -connect "$NGINX_TLS" -servername "$sni" 2>/dev/null \
| openssl x509 -noout -issuer 2>/dev/null \
| sed 's/issuer=//' | sed 's/^ *//'
}
# Get the TLS cert SANs from NGINX for a given SNI
# Modern CAs (including Let's Encrypt / Pebble) put domains only in SAN, not Subject CN.
get_tls_san() {
local sni="$1"
echo | openssl s_client -connect "$NGINX_TLS" -servername "$sni" 2>/dev/null \
| openssl x509 -noout -ext subjectAltName 2>/dev/null \
| grep -i "DNS:" | sed 's/^ *//'
}
# Check if NGINX is serving a cert that matches the given domain (checks Subject then SAN)
check_tls_identity() {
local domain="$1"
local subject issuer san
subject=$(get_tls_subject "$domain")
issuer=$(get_tls_issuer "$domain")
san=$(get_tls_san "$domain")
if echo "$subject" | grep -qi "$domain" || echo "$san" | grep -qi "$domain"; then
echo "MATCH"
echo "Subject: $subject"
echo "SAN: $san"
echo "Issuer: $issuer"
else
echo "NO_MATCH"
echo "Subject: $subject"
echo "SAN: $san"
echo "Issuer: $issuer"
fi
}
# SQL exec in the postgres container
psql_exec() {
docker exec certctl-test-postgres psql -U certctl -d certctl -tAc "$1" 2>/dev/null
}
# ---------------------------------------------------------------------------
# Cleanup trap
# ---------------------------------------------------------------------------
cleanup() {
if [ "$TEARDOWN" = true ]; then
info "Tearing down test environment..."
docker compose -f "$COMPOSE_FILE" down -v >/dev/null 2>&1 || true
else
info "Leaving containers running (--no-teardown)"
fi
}
# ---------------------------------------------------------------------------
# PHASE 0: Environment Check
# ---------------------------------------------------------------------------
header "Phase 0: Environment Check"
# Make sure we're in the deploy directory
if [ ! -f "$COMPOSE_FILE" ]; then
echo -e "${RED}ERROR: $COMPOSE_FILE not found.${NC}"
echo "Run this script from the certctl/deploy directory:"
echo " cd certctl/deploy && ./test/run-test.sh"
exit 1
fi
for cmd in docker curl openssl python3; do
if command -v "$cmd" >/dev/null 2>&1; then
pass "$cmd available"
else
fail "$cmd not found" "Install $cmd and try again"
exit 1
fi
done
if docker compose version >/dev/null 2>&1; then
pass "docker compose available"
else
fail "docker compose not available" "Install Docker Compose v2+"
exit 1
fi
# ---------------------------------------------------------------------------
# PHASE 1: Start the Stack
# ---------------------------------------------------------------------------
header "Phase 1: Start Test Environment"
# Teardown any previous run
info "Cleaning up previous test environment..."
docker compose -f "$COMPOSE_FILE" down -v >/dev/null 2>&1 || true
# Set the cleanup trap AFTER the initial teardown
trap cleanup EXIT
if [ "$BUILD" = true ]; then
info "Building and starting containers (this takes 2-5 minutes on first run)..."
docker compose -f "$COMPOSE_FILE" up --build -d 2>&1 | tail -5
else
info "Starting containers (--no-build)..."
docker compose -f "$COMPOSE_FILE" up -d 2>&1 | tail -5
fi
# ---------------------------------------------------------------------------
# PHASE 2: Wait for Services
# ---------------------------------------------------------------------------
header "Phase 2: Waiting for Services"
info "Waiting for PostgreSQL..."
if docker compose -f "$COMPOSE_FILE" exec -T postgres pg_isready -U certctl -d certctl >/dev/null 2>&1 ||
wait_for_http "${API_URL}/health" "postgres" 60; then
pass "PostgreSQL ready"
else
fail "PostgreSQL not ready after 60s"
fi
info "Waiting for certctl server..."
if wait_for_http "${API_URL}/health" "server" 120; then
pass "certctl server healthy"
# Show trust setup + connector init for debugging
echo " --- Server startup (trust setup) ---"
docker logs certctl-test-server 2>&1 | grep -E "trust|Added|Extract|provisioner|Pre-launch|key file|WARNING|CERTCTL_" | head -15
echo " ---"
else
fail "certctl server not healthy after 120s"
echo ""
echo "Server logs:"
docker logs certctl-test-server --tail 30
exit 1
fi
info "Waiting for NGINX..."
if wait_for_http "http://localhost:8080" "nginx" 30; then
pass "NGINX healthy"
else
# NGINX might not respond to plain curl on /health without the right path
# Check docker health instead
if docker inspect certctl-test-nginx --format='{{.State.Health.Status}}' 2>/dev/null | grep -q healthy; then
pass "NGINX healthy (docker healthcheck)"
else
skip "NGINX health check inconclusive (will verify via TLS later)"
fi
fi
# Give the agent a few seconds to register and send first heartbeat
info "Waiting for agent heartbeat (up to 45s)..."
AGENT_READY=false
for i in $(seq 1 15); do
AGENT_STATUS=$(api_get "/api/v1/agents/agent-test-01" 2>/dev/null | python3 -c "import sys,json; print(json.load(sys.stdin).get('status',''))" 2>/dev/null || echo "")
if [ "$AGENT_STATUS" = "online" ]; then
AGENT_READY=true
break
fi
sleep 3
done
if [ "$AGENT_READY" = true ]; then
pass "Agent online"
else
skip "Agent not yet online (may be slow to heartbeat — continuing)"
fi
# ---------------------------------------------------------------------------
# PHASE 3: Verify Pre-Seeded Data
# ---------------------------------------------------------------------------
header "Phase 3: Verify Pre-Seeded Data"
# Agents
AGENT_COUNT=$(api_get "/api/v1/agents" | python3 -c "import sys,json; print(json.load(sys.stdin).get('total',0))" 2>/dev/null || echo 0)
if [ "$AGENT_COUNT" -ge 2 ]; then
pass "Agents: $AGENT_COUNT found (agent-test-01 + server-scanner)"
else
fail "Agents: expected >= 2, got $AGENT_COUNT"
fi
# Issuers
ISSUER_COUNT=$(api_get "/api/v1/issuers" | python3 -c "import sys,json; print(json.load(sys.stdin).get('total',0))" 2>/dev/null || echo 0)
if [ "$ISSUER_COUNT" -ge 3 ]; then
pass "Issuers: $ISSUER_COUNT found (iss-local, iss-acme-staging, iss-stepca)"
else
fail "Issuers: expected >= 3, got $ISSUER_COUNT" "Check seed_test.sql loaded correctly"
fi
# Targets
TARGET_COUNT=$(api_get "/api/v1/targets" | python3 -c "import sys,json; print(json.load(sys.stdin).get('total',0))" 2>/dev/null || echo 0)
if [ "$TARGET_COUNT" -ge 1 ]; then
pass "Targets: $TARGET_COUNT found (target-test-nginx)"
else
fail "Targets: expected >= 1, got $TARGET_COUNT" "seed_test.sql may have failed after iss-local"
fi
# Profile
PROFILE_RESP=$(api_get "/api/v1/profiles" 2>/dev/null || echo '{"total":0}')
PROFILE_COUNT=$(echo "$PROFILE_RESP" | python3 -c "import sys,json; print(json.load(sys.stdin).get('total',0))" 2>/dev/null || echo 0)
if [ "$PROFILE_COUNT" -ge 2 ]; then
pass "Profiles: $PROFILE_COUNT found (prof-test-tls, prof-test-smime)"
else
fail "Profiles: expected >= 1, got $PROFILE_COUNT"
fi
# Bail if seed data is broken
if [ "$ISSUER_COUNT" -lt 3 ] || [ "$TARGET_COUNT" -lt 1 ]; then
echo ""
echo -e "${RED}Seed data is incomplete. Cannot continue.${NC}"
echo "Check PostgreSQL logs: docker logs certctl-test-postgres"
exit 1
fi
# ---------------------------------------------------------------------------
# PHASE 4: Local CA Issuance
# ---------------------------------------------------------------------------
header "Phase 4: Local CA Certificate Issuance"
info "Creating certificate record mc-local-test..."
CREATE_RESP=$(api_post "/api/v1/certificates" '{
"id": "mc-local-test",
"name": "local-test-cert",
"common_name": "local.certctl.test",
"sans": ["local.certctl.test"],
"issuer_id": "iss-local",
"owner_id": "owner-test-admin",
"team_id": "team-test-ops",
"renewal_policy_id": "rp-default",
"certificate_profile_id": "prof-test-tls",
"environment": "development"
}' 2>/dev/null || echo "ERROR")
if echo "$CREATE_RESP" | python3 -c "import sys,json; d=json.load(sys.stdin); assert d.get('id')=='mc-local-test'" 2>/dev/null; then
pass "Certificate record created"
else
fail "Certificate creation failed" "$CREATE_RESP"
fi
info "Linking certificate to NGINX target..."
psql_exec "INSERT INTO certificate_target_mappings (certificate_id, target_id) VALUES ('mc-local-test', 'target-test-nginx') ON CONFLICT DO NOTHING;"
pass "Target mapping inserted"
info "Triggering issuance..."
RENEW_RESP=$(api_post "/api/v1/certificates/mc-local-test/renew" 2>/dev/null || echo "ERROR")
if echo "$RENEW_RESP" | grep -q "renewal_triggered\|status"; then
pass "Issuance triggered"
else
fail "Trigger failed" "$RENEW_RESP"
fi
# Verify a job was created (this is the bug fix check)
sleep 2
JOB_COUNT=$(api_get "/api/v1/jobs" | python3 -c "
import sys, json
data = json.load(sys.stdin)
jobs = [j for j in (data.get('data') or data.get('jobs') or []) if j.get('certificate_id') == 'mc-local-test']
print(len(jobs))
" 2>/dev/null || echo "0")
if [ "$JOB_COUNT" -gt 0 ]; then
pass "Job created ($JOB_COUNT jobs for mc-local-test)"
else
fail "No jobs created — TriggerRenewalWithActor bug still present"
fi
info "Waiting for issuance + deployment (up to 180s)..."
if wait_for_jobs_done "mc-local-test" 180; then
pass "All jobs completed"
else
fail "Jobs did not complete within 180s"
echo " Current jobs:"
api_get "/api/v1/jobs" 2>/dev/null | python3 -m json.tool 2>/dev/null | head -30
fi
info "Reloading NGINX to pick up deployed certificate..."
docker exec certctl-test-nginx nginx -s reload 2>/dev/null || true
sleep 3
info "Verifying TLS certificate on NGINX..."
TLS_CHECK=$(check_tls_identity "local.certctl.test")
TLS_RESULT=$(echo "$TLS_CHECK" | head -1)
if [ "$TLS_RESULT" = "MATCH" ]; then
pass "NGINX serving cert for local.certctl.test"
echo "$TLS_CHECK" | tail -n +2 | while read -r line; do echo -e " $line"; done
else
fail "NGINX not serving expected cert" "$(echo "$TLS_CHECK" | tail -n +2 | tr '\n' ', ')"
fi
# Check cert status in API
CERT_STATUS=$(api_get "/api/v1/certificates/mc-local-test" | python3 -c "import sys,json; print(json.load(sys.stdin).get('status',''))" 2>/dev/null || echo "unknown")
if [ "$CERT_STATUS" = "Active" ]; then
pass "Certificate status: Active"
else
skip "Certificate status: $CERT_STATUS (expected Active — may need more time)"
fi
# ---------------------------------------------------------------------------
# PHASE 5: ACME (Pebble) Issuance
# ---------------------------------------------------------------------------
header "Phase 5: ACME (Pebble) Certificate Issuance"
info "Creating certificate record mc-acme-test..."
CREATE_RESP=$(api_post "/api/v1/certificates" '{
"id": "mc-acme-test",
"name": "acme-test-cert",
"common_name": "acme.certctl.test",
"sans": ["acme.certctl.test"],
"issuer_id": "iss-acme-staging",
"owner_id": "owner-test-admin",
"team_id": "team-test-ops",
"renewal_policy_id": "rp-default",
"certificate_profile_id": "prof-test-tls",
"environment": "staging"
}' 2>/dev/null || echo "ERROR")
if echo "$CREATE_RESP" | python3 -c "import sys,json; d=json.load(sys.stdin); assert d.get('id')=='mc-acme-test'" 2>/dev/null; then
pass "Certificate record created"
else
fail "Certificate creation failed" "$CREATE_RESP"
fi
info "Linking to target and triggering issuance..."
psql_exec "INSERT INTO certificate_target_mappings (certificate_id, target_id) VALUES ('mc-acme-test', 'target-test-nginx') ON CONFLICT DO NOTHING;"
RENEW_RESP=$(api_post "/api/v1/certificates/mc-acme-test/renew" 2>/dev/null || echo "ERROR")
if echo "$RENEW_RESP" | grep -q "renewal_triggered\|status"; then
pass "Issuance triggered"
else
fail "Trigger failed" "$RENEW_RESP"
fi
info "Waiting for ACME issuance + deployment (up to 180s)..."
if wait_for_jobs_done "mc-acme-test" 180; then
pass "All jobs completed"
info "Reloading NGINX to pick up deployed certificate..."
docker exec certctl-test-nginx nginx -s reload 2>/dev/null || true
sleep 3
TLS_CHECK=$(check_tls_identity "acme.certctl.test")
TLS_RESULT=$(echo "$TLS_CHECK" | head -1)
if [ "$TLS_RESULT" = "MATCH" ]; then
pass "NGINX serving cert for acme.certctl.test"
echo "$TLS_CHECK" | tail -n +2 | while read -r line; do echo -e " $line"; done
else
fail "NGINX not serving expected ACME cert" "$(echo "$TLS_CHECK" | tail -n +2 | tr '\n' ', ')"
fi
else
fail "ACME jobs did not complete within 180s"
info "Checking ACME job status..."
api_get "/api/v1/jobs" 2>/dev/null | python3 -c "
import sys, json
data = json.load(sys.stdin)
for j in data.get('data', []):
if j.get('certificate_id') == 'mc-acme-test':
print(f\" Job {j['id']}: type={j['type']} status={j['status']} error={j.get('last_error','')}\")" 2>/dev/null || true
echo " Server logs (last 20 lines):"
docker logs certctl-test-server --tail 20 2>&1 | grep -i "acme\|error\|fail\|CSR" | head -10 || true
fi
# ---------------------------------------------------------------------------
# PHASE 6: step-ca Issuance
# ---------------------------------------------------------------------------
header "Phase 6: step-ca (Private CA) Certificate Issuance"
info "Creating certificate record mc-stepca-test..."
CREATE_RESP=$(api_post "/api/v1/certificates" '{
"id": "mc-stepca-test",
"name": "stepca-test-cert",
"common_name": "stepca.certctl.test",
"sans": ["stepca.certctl.test"],
"issuer_id": "iss-stepca",
"owner_id": "owner-test-admin",
"team_id": "team-test-ops",
"renewal_policy_id": "rp-default",
"certificate_profile_id": "prof-test-tls",
"environment": "staging"
}' 2>/dev/null || echo "ERROR")
if echo "$CREATE_RESP" | python3 -c "import sys,json; d=json.load(sys.stdin); assert d.get('id')=='mc-stepca-test'" 2>/dev/null; then
pass "Certificate record created"
else
fail "Certificate creation failed" "$CREATE_RESP"
fi
info "Linking to target and triggering issuance..."
psql_exec "INSERT INTO certificate_target_mappings (certificate_id, target_id) VALUES ('mc-stepca-test', 'target-test-nginx') ON CONFLICT DO NOTHING;"
RENEW_RESP=$(api_post "/api/v1/certificates/mc-stepca-test/renew" 2>/dev/null || echo "ERROR")
if echo "$RENEW_RESP" | grep -q "renewal_triggered\|status"; then
pass "Issuance triggered"
else
fail "Trigger failed" "$RENEW_RESP"
fi
info "Waiting for step-ca issuance + deployment (up to 120s)..."
if wait_for_jobs_done "mc-stepca-test" 120; then
pass "All jobs completed"
else
fail "Jobs did not complete in time"
info "Checking step-ca job status..."
api_get "/api/v1/jobs" 2>/dev/null | python3 -c "
import sys, json
data = json.load(sys.stdin)
for j in data.get('data', []):
if j.get('certificate_id') == 'mc-stepca-test':
print(f\" Job {j['id']}: type={j['type']} status={j['status']} error={j.get('last_error','')}\")" 2>/dev/null || true
echo " Server logs (step-ca related):"
docker logs certctl-test-server --tail 30 2>&1 | grep -i "stepca\|step-ca\|provisioner\|jwe\|decrypt\|CSR.*fail\|error" | head -10 || true
fi
# ---------------------------------------------------------------------------
# PHASE 7: Revocation
# ---------------------------------------------------------------------------
header "Phase 7: Revocation"
info "Revoking mc-local-test (reason: superseded)..."
REVOKE_RESP=$(api_post "/api/v1/certificates/mc-local-test/revoke" '{"reason": "superseded"}' 2>/dev/null || echo "ERROR")
if echo "$REVOKE_RESP" | grep -qi "revoked\|status"; then
pass "Certificate revoked"
else
fail "Revocation failed" "$REVOKE_RESP"
fi
info "Checking CRL..."
CRL_RESP=$(api_get "/api/v1/crl" 2>/dev/null || echo '{"total":0}')
CRL_TOTAL=$(echo "$CRL_RESP" | python3 -c "import sys,json; print(json.load(sys.stdin).get('total',0))" 2>/dev/null || echo 0)
if [ "$CRL_TOTAL" -ge 1 ]; then
pass "CRL contains $CRL_TOTAL revoked certificate(s)"
else
fail "CRL empty after revocation"
fi
CERT_STATUS=$(api_get "/api/v1/certificates/mc-local-test" | python3 -c "import sys,json; print(json.load(sys.stdin).get('status',''))" 2>/dev/null || echo "unknown")
if [ "$CERT_STATUS" = "Revoked" ]; then
pass "Certificate status updated to Revoked"
else
fail "Certificate status: $CERT_STATUS (expected Revoked)"
fi
# ---------------------------------------------------------------------------
# PHASE 8: Discovery
# ---------------------------------------------------------------------------
header "Phase 8: Certificate Discovery"
info "Checking discovered certificates..."
DISC_RESP=$(api_get "/api/v1/discovered-certificates" 2>/dev/null || echo '{"total":0}')
DISC_TOTAL=$(echo "$DISC_RESP" | python3 -c "import sys,json; print(json.load(sys.stdin).get('total',0))" 2>/dev/null || echo 0)
if [ "$DISC_TOTAL" -ge 1 ]; then
pass "Discovered $DISC_TOTAL certificate(s) on filesystem"
else
skip "No discovered certificates yet (agent scan may not have run)"
fi
SUMMARY_RESP=$(api_get "/api/v1/discovery-summary" 2>/dev/null || echo '{}')
echo -e " Discovery summary: $SUMMARY_RESP"
# ---------------------------------------------------------------------------
# PHASE 9: Renewal (re-issue ACME cert)
# ---------------------------------------------------------------------------
header "Phase 9: Renewal"
# Try mc-stepca-test first (mc-local-test was revoked in Phase 7).
# Fall back to mc-acme-test if step-ca cert isn't Active.
RENEWAL_CERT=""
for candidate in mc-stepca-test mc-acme-test; do
STATUS=$(api_get "/api/v1/certificates/$candidate" 2>/dev/null | python3 -c "import sys,json; print(json.load(sys.stdin).get('status',''))" 2>/dev/null || echo "unknown")
if [ "$STATUS" = "Active" ]; then
RENEWAL_CERT="$candidate"
break
fi
done
if [ -z "$RENEWAL_CERT" ]; then
skip "Cannot test renewal — no certificate in Active state"
else
info "Using $RENEWAL_CERT for renewal test..."
info "Triggering renewal on $RENEWAL_CERT..."
RENEW_RESP=$(api_post "/api/v1/certificates/$RENEWAL_CERT/renew" 2>/dev/null || echo "ERROR")
if echo "$RENEW_RESP" | grep -q "renewal_triggered\|status"; then
pass "Renewal triggered"
else
skip "Renewal trigger returned: $RENEW_RESP"
fi
info "Waiting for renewal to complete (up to 180s)..."
if wait_for_jobs_done "$RENEWAL_CERT" 180; then
pass "Renewal jobs completed"
info "Reloading NGINX to pick up renewed certificate..."
docker exec certctl-test-nginx nginx -s reload 2>/dev/null || true
sleep 3
# Verify version history shows multiple versions
VERSIONS=$(api_get "/api/v1/certificates/$RENEWAL_CERT/versions" 2>/dev/null | python3 -c "import sys,json; d=json.load(sys.stdin); print(len(d) if isinstance(d, list) else d.get('total', 0))" 2>/dev/null || echo 0)
if [ "$VERSIONS" -ge 2 ]; then
pass "Certificate has $VERSIONS versions (original + renewal)"
else
skip "Expected 2+ versions, got $VERSIONS"
fi
else
skip "Renewal jobs did not complete within 180s"
fi
fi
# ---------------------------------------------------------------------------
# PHASE 10: EST Enrollment (RFC 7030)
# ---------------------------------------------------------------------------
header "Phase 10: EST Enrollment (RFC 7030)"
# Test cacerts endpoint — should return PKCS#7 with CA cert chain
info "Testing EST cacerts endpoint..."
EST_CACERTS_RESP=$(curl -sf -H "${AUTH_HEADER}" "${API_URL}/.well-known/est/cacerts" 2>/dev/null || echo "ERROR")
if [ "$EST_CACERTS_RESP" != "ERROR" ] && [ -n "$EST_CACERTS_RESP" ]; then
# Response should be base64-encoded PKCS#7
if echo "$EST_CACERTS_RESP" | base64 -d >/dev/null 2>&1; then
pass "EST cacerts returns valid base64 PKCS#7 response"
else
fail "EST cacerts returned non-base64 data"
fi
else
fail "EST cacerts endpoint failed" "$EST_CACERTS_RESP"
fi
# Test csrattrs endpoint
info "Testing EST csrattrs endpoint..."
EST_CSRATTRS_STATUS=$(curl -sf -o /dev/null -w "%{http_code}" -H "${AUTH_HEADER}" "${API_URL}/.well-known/est/csrattrs" 2>/dev/null || echo "000")
if [ "$EST_CSRATTRS_STATUS" = "200" ] || [ "$EST_CSRATTRS_STATUS" = "204" ]; then
pass "EST csrattrs returns $EST_CSRATTRS_STATUS"
else
fail "EST csrattrs returned $EST_CSRATTRS_STATUS (expected 200 or 204)"
fi
# Test simpleenroll — generate CSR, POST as base64-encoded DER
info "Testing EST simpleenroll with generated CSR..."
EST_KEY_FILE=$(mktemp /tmp/est-key-XXXXXX.pem)
EST_CSR_PEM_FILE=$(mktemp /tmp/est-csr-XXXXXX.pem)
EST_CSR_DER_FILE=$(mktemp /tmp/est-csr-XXXXXX.der)
trap "rm -f $EST_KEY_FILE $EST_CSR_PEM_FILE $EST_CSR_DER_FILE" EXIT
# Generate ECDSA key + CSR
openssl ecparam -genkey -name prime256v1 -noout -out "$EST_KEY_FILE" 2>/dev/null
openssl req -new -key "$EST_KEY_FILE" -out "$EST_CSR_PEM_FILE" -subj "/CN=est-device.certctl.test" 2>/dev/null
openssl req -in "$EST_CSR_PEM_FILE" -out "$EST_CSR_DER_FILE" -outform DER 2>/dev/null
# base64-encode the DER CSR (EST wire format)
EST_CSR_B64=$(base64 < "$EST_CSR_DER_FILE" | tr -d '\n')
EST_ENROLL_RESP=$(curl -sf \
-X POST \
-H "${AUTH_HEADER}" \
-H "Content-Type: application/pkcs10" \
-d "$EST_CSR_B64" \
"${API_URL}/.well-known/est/simpleenroll" 2>/dev/null || echo "ERROR")
if [ "$EST_ENROLL_RESP" != "ERROR" ] && [ -n "$EST_ENROLL_RESP" ]; then
# Response should be base64-encoded PKCS#7 containing the issued cert
if echo "$EST_ENROLL_RESP" | base64 -d >/dev/null 2>&1; then
pass "EST simpleenroll issued certificate via PKCS#7 response"
else
fail "EST simpleenroll returned non-base64 data"
fi
else
fail "EST simpleenroll failed" "$(curl -s -X POST -H "${AUTH_HEADER}" -H "Content-Type: application/pkcs10" -d "$EST_CSR_B64" "${API_URL}/.well-known/est/simpleenroll" 2>&1 | head -5)"
fi
# Test simplereenroll (should work identically)
info "Testing EST simplereenroll..."
EST_REENROLL_STATUS=$(curl -sf -o /dev/null -w "%{http_code}" \
-X POST \
-H "${AUTH_HEADER}" \
-H "Content-Type: application/pkcs10" \
-d "$EST_CSR_B64" \
"${API_URL}/.well-known/est/simplereenroll" 2>/dev/null || echo "000")
if [ "$EST_REENROLL_STATUS" = "200" ]; then
pass "EST simplereenroll works (status 200)"
else
fail "EST simplereenroll returned $EST_REENROLL_STATUS (expected 200)"
fi
# ---------------------------------------------------------------------------
# PHASE 11: S/MIME Certificate Issuance
# ---------------------------------------------------------------------------
header "Phase 11: S/MIME Certificate Issuance"
info "Creating S/MIME certificate record..."
SMIME_RESP=$(api_post "/api/v1/certificates" '{
"id": "mc-smime-test",
"name": "smime-test-cert",
"common_name": "testuser@certctl.test",
"sans": ["testuser@certctl.test"],
"issuer_id": "iss-local",
"owner_id": "owner-test-admin",
"team_id": "team-test-ops",
"renewal_policy_id": "rp-default",
"certificate_profile_id": "prof-test-smime",
"environment": "staging"
}' 2>/dev/null || echo "ERROR")
if echo "$SMIME_RESP" | python3 -c "import sys,json; d=json.load(sys.stdin); assert d.get('id')=='mc-smime-test'" 2>/dev/null; then
pass "S/MIME certificate record created"
else
fail "S/MIME certificate creation failed" "$SMIME_RESP"
fi
info "Linking S/MIME cert to target (needed for agent work routing)..."
psql_exec "INSERT INTO certificate_target_mappings (certificate_id, target_id) VALUES ('mc-smime-test', 'target-test-nginx') ON CONFLICT DO NOTHING;"
info "Triggering S/MIME issuance..."
SMIME_RENEW=$(api_post "/api/v1/certificates/mc-smime-test/renew" 2>/dev/null || echo "ERROR")
if echo "$SMIME_RENEW" | grep -q "renewal_triggered\|status"; then
pass "S/MIME issuance triggered"
else
fail "S/MIME trigger failed" "$SMIME_RENEW"
fi
info "Waiting for S/MIME issuance (up to 120s)..."
if wait_for_jobs_done "mc-smime-test" 120; then
pass "S/MIME jobs completed"
# Fetch the issued cert and verify EKU
info "Verifying S/MIME certificate EKU..."
SMIME_VERSIONS=$(api_get "/api/v1/certificates/mc-smime-test/versions" 2>/dev/null || echo "[]")
SMIME_PEM=$(echo "$SMIME_VERSIONS" | python3 -c "
import sys, json
data = json.load(sys.stdin)
versions = data if isinstance(data, list) else data.get('data', [])
if versions:
print(versions[-1].get('pem_chain', versions[-1].get('pem', '')))
" 2>/dev/null || echo "")
if [ -n "$SMIME_PEM" ]; then
# Parse the cert and check for emailProtection EKU
SMIME_EKU=$(echo "$SMIME_PEM" | openssl x509 -noout -text 2>/dev/null | grep -A2 "Extended Key Usage" || echo "")
if echo "$SMIME_EKU" | grep -qi "emailProtection\|E-mail Protection"; then
pass "S/MIME cert has emailProtection EKU"
else
fail "S/MIME cert missing emailProtection EKU" "Got: $SMIME_EKU"
fi
# Check KeyUsage flags (S/MIME should have Digital Signature + Content Commitment)
SMIME_KU=$(echo "$SMIME_PEM" | openssl x509 -noout -text 2>/dev/null | awk '/X509v3 Key Usage:/{getline; print; exit}')
if echo "$SMIME_KU" | grep -qi "Digital Signature"; then
pass "S/MIME cert has Digital Signature KeyUsage"
else
fail "S/MIME cert missing Digital Signature KeyUsage" "Got: $SMIME_KU"
fi
# Check that email SAN is present
SMIME_SAN=$(echo "$SMIME_PEM" | openssl x509 -noout -ext subjectAltName 2>/dev/null || echo "")
if echo "$SMIME_SAN" | grep -qi "email:testuser@certctl.test"; then
pass "S/MIME cert has email SAN"
else
# Some implementations use rfc822Name instead of email:
if echo "$SMIME_SAN" | grep -qi "testuser@certctl.test"; then
pass "S/MIME cert has email SAN (rfc822Name)"
else
skip "S/MIME email SAN not found in cert (may be in CN only)"
echo " SAN content: $SMIME_SAN"
fi
fi
else
skip "Could not extract S/MIME cert PEM for EKU verification"
fi
else
fail "S/MIME issuance did not complete within 120s"
info "Checking S/MIME job status..."
api_get "/api/v1/jobs" 2>/dev/null | python3 -c "
import sys, json
data = json.load(sys.stdin)
for j in data.get('data', []):
if j.get('certificate_id') == 'mc-smime-test':
print(f\" Job {j['id']}: type={j['type']} status={j['status']} error={j.get('last_error','')}\")" 2>/dev/null || true
fi
# ---------------------------------------------------------------------------
# PHASE 12: API Spot Checks
# ---------------------------------------------------------------------------
header "Phase 12: API Spot Checks"
# Health
if api_get "/health" >/dev/null 2>&1; then
pass "GET /health returns 200"
else
fail "GET /health failed"
fi
# Metrics
METRICS_RESP=$(api_get "/api/v1/metrics" 2>/dev/null || echo "ERROR")
if echo "$METRICS_RESP" | python3 -c "import sys,json; d=json.load(sys.stdin); assert 'gauge' in d" 2>/dev/null; then
pass "GET /api/v1/metrics returns valid JSON"
else
fail "Metrics endpoint broken"
fi
# Stats summary
STATS_RESP=$(api_get "/api/v1/stats/summary" 2>/dev/null || echo "ERROR")
if echo "$STATS_RESP" | python3 -c "import sys,json; json.load(sys.stdin)" 2>/dev/null; then
pass "GET /api/v1/stats/summary returns valid JSON"
else
fail "Stats summary endpoint broken"
fi
# Audit trail
AUDIT_RESP=$(api_get "/api/v1/audit" 2>/dev/null || echo '{"total":0}')
AUDIT_TOTAL=$(echo "$AUDIT_RESP" | python3 -c "import sys,json; print(json.load(sys.stdin).get('total',0))" 2>/dev/null || echo 0)
if [ "$AUDIT_TOTAL" -gt 0 ]; then
pass "Audit trail: $AUDIT_TOTAL events recorded"
else
fail "Audit trail empty"
fi
# Jobs summary
JOBS_RESP=$(api_get "/api/v1/jobs" 2>/dev/null || echo '{"total":0}')
JOBS_TOTAL=$(echo "$JOBS_RESP" | python3 -c "import sys,json; print(json.load(sys.stdin).get('total',0))" 2>/dev/null || echo 0)
pass "Total jobs created: $JOBS_TOTAL"
# Prometheus
PROM_RESP=$(curl -sf -H "${AUTH_HEADER}" "${API_URL}/api/v1/metrics/prometheus" 2>/dev/null || echo "")
if echo "$PROM_RESP" | grep -q "certctl_certificate_total"; then
pass "Prometheus metrics endpoint working"
else
fail "Prometheus metrics endpoint broken"
fi
# ---------------------------------------------------------------------------
# Summary
# ---------------------------------------------------------------------------
header "Test Summary"
TOTAL=$((PASS + FAIL + SKIP))
echo ""
echo -e " ${GREEN}Passed: $PASS${NC}"
echo -e " ${RED}Failed: $FAIL${NC}"
echo -e " ${YELLOW}Skipped: $SKIP${NC}"
echo -e " Total: $TOTAL"
echo ""
if [ "$FAIL" -eq 0 ]; then
echo -e "${GREEN}${BOLD}All tests passed.${NC}"
exit 0
else
echo -e "${RED}${BOLD}$FAIL test(s) failed.${NC}"
echo ""
echo "Useful debug commands:"
echo " docker logs certctl-test-server --tail 50"
echo " docker logs certctl-test-agent --tail 50"
echo " docker compose -f $COMPOSE_FILE ps"
exit 1
fi
deploy/test/setup-trust.sh
Executable
+140
View File
@@ -0,0 +1,140 @@
#!/bin/sh
# This script runs inside the certctl-server container at startup.
# It fetches CA certificates from Pebble and step-ca, adds them to the
# system trust store, then starts the certctl server.
#
# Why: The ACME connector and step-ca connector use Go's default http.Client
# with no InsecureSkipVerify. They rely on the system trust store to verify
# TLS connections. Pebble and step-ca both use self-signed root CAs that
# aren't in Alpine's default CA bundle, so we must add them manually.
#
# This script runs as root (user: "0:0" in docker-compose) so that
# update-ca-certificates can write to /etc/ssl/certs/.
set -e
echo "=== certctl trust store setup ==="
# --- Pebble CA cert (fetched from management API) ---
# Pebble's management API serves the root CA at /roots/0.
# We use -k because we can't verify Pebble's TLS cert yet (chicken-and-egg).
echo "Fetching Pebble root CA from management API..."
PEBBLE_CA=""
for i in 1 2 3 4 5 6 7 8 9 10; do
if PEBBLE_CA=$(curl -sk https://pebble:15000/roots/0 2>/dev/null); then
if [ -n "$PEBBLE_CA" ]; then
echo "$PEBBLE_CA" > /usr/local/share/ca-certificates/pebble-ca.crt
echo " Added: Pebble test CA"
break
fi
fi
echo " Waiting for Pebble (attempt $i/10)..."
sleep 2
done
if [ -z "$PEBBLE_CA" ]; then
echo " WARNING: Could not fetch Pebble CA. ACME issuance will fail."
fi
# --- step-ca root cert (from shared volume) ---
# The step-ca container writes its root CA to /home/step/certs/root_ca.crt.
# We mount the step-ca data volume at /stepca-data inside this container.
STEPCA_ROOT="/stepca-data/certs/root_ca.crt"
echo "Waiting for step-ca root cert..."
for i in 1 2 3 4 5 6 7 8 9 10; do
if [ -f "$STEPCA_ROOT" ]; then
cp "$STEPCA_ROOT" /usr/local/share/ca-certificates/step-ca-root.crt
echo " Added: step-ca root CA"
break
fi
echo " Waiting for step-ca root cert (attempt $i/10)..."
sleep 2
done
if [ ! -f "$STEPCA_ROOT" ]; then
echo " WARNING: step-ca root cert not found at $STEPCA_ROOT"
echo " step-ca issuance may fail until the cert is available."
fi
# --- step-ca provisioner key (extracted from ca.json) ---
# When step-ca auto-bootstraps via DOCKER_STEPCA_INIT_* env vars, the
# encrypted provisioner key (JWE) is NOT written as a separate file.
# Instead, it's embedded in ca.json under:
# authority.provisioners[0].encryptedKey
# We extract it here and write to /tmp so the certctl server can read it.
# The stepca_data volume is mounted :ro, so we can't write there.
STEPCA_CA_JSON="/stepca-data/config/ca.json"
STEPCA_KEY_EXTRACTED="/tmp/step-ca-provisioner-key"
echo "Extracting step-ca provisioner key from ca.json..."
for i in 1 2 3 4 5 6 7 8 9 10; do
if [ -f "$STEPCA_CA_JSON" ]; then
# Extract the encryptedKey value using grep+sed (no jq in Alpine base)
# The field looks like: "encryptedKey": "eyJhbGciOi..."
ENCRYPTED_KEY=$(grep -o '"encryptedKey":"[^"]*"' "$STEPCA_CA_JSON" | head -1 | sed 's/"encryptedKey":"//;s/"$//')
if [ -z "$ENCRYPTED_KEY" ]; then
# Try with spaces around colon (JSON formatting varies)
ENCRYPTED_KEY=$(grep -o '"encryptedKey" *: *"[^"]*"' "$STEPCA_CA_JSON" | head -1 | sed 's/"encryptedKey" *: *"//;s/"$//')
fi
if [ -n "$ENCRYPTED_KEY" ]; then
# Check if it's JWE compact serialization (dot-separated) or JSON serialization
case "$ENCRYPTED_KEY" in
\{*)
# Already JSON serialization — write as-is
echo "$ENCRYPTED_KEY" > "$STEPCA_KEY_EXTRACTED"
;;
*)
# JWE compact serialization: header.encrypted_key.iv.ciphertext.tag
# Convert to JSON serialization expected by Go decryptProvisionerKey()
JWE_PROTECTED=$(echo "$ENCRYPTED_KEY" | cut -d. -f1)
JWE_ENCKEY=$(echo "$ENCRYPTED_KEY" | cut -d. -f2)
JWE_IV=$(echo "$ENCRYPTED_KEY" | cut -d. -f3)
JWE_CT=$(echo "$ENCRYPTED_KEY" | cut -d. -f4)
JWE_TAG=$(echo "$ENCRYPTED_KEY" | cut -d. -f5)
printf '{"protected":"%s","encrypted_key":"%s","iv":"%s","ciphertext":"%s","tag":"%s"}' \
"$JWE_PROTECTED" "$JWE_ENCKEY" "$JWE_IV" "$JWE_CT" "$JWE_TAG" > "$STEPCA_KEY_EXTRACTED"
;;
esac
echo " Extracted provisioner key to $STEPCA_KEY_EXTRACTED"
echo " Key file size: $(wc -c < "$STEPCA_KEY_EXTRACTED") bytes"
echo " Key starts with: $(head -c 40 "$STEPCA_KEY_EXTRACTED")..."
# Override the env var so the server reads from the extracted file
export CERTCTL_STEPCA_KEY_PATH="$STEPCA_KEY_EXTRACTED"
break
else
echo " ca.json found but encryptedKey not found in it (attempt $i/10)"
fi
else
echo " Waiting for step-ca ca.json (attempt $i/10)..."
fi
sleep 2
done
if [ ! -f "$STEPCA_KEY_EXTRACTED" ]; then
echo " WARNING: Could not extract step-ca provisioner key"
echo " Listing /stepca-data/config/ for debugging:"
ls -la /stepca-data/config/ 2>/dev/null || echo " /stepca-data/config/ does not exist"
echo " step-ca issuance will fail."
fi
# --- Update system trust store ---
echo "Updating system CA trust store..."
update-ca-certificates 2>/dev/null || true
echo "Trust store updated."
# --- Debug: verify configuration before starting server ---
echo "=== Pre-launch verification ==="
echo " CERTCTL_STEPCA_KEY_PATH=$CERTCTL_STEPCA_KEY_PATH"
if [ -f "$CERTCTL_STEPCA_KEY_PATH" ]; then
echo " step-ca key file exists ($(wc -c < "$CERTCTL_STEPCA_KEY_PATH") bytes)"
echo " step-ca key preview: $(head -c 60 "$CERTCTL_STEPCA_KEY_PATH")..."
else
echo " WARNING: step-ca key file NOT FOUND at $CERTCTL_STEPCA_KEY_PATH"
fi
echo " CERTCTL_ACME_DIRECTORY_URL=$CERTCTL_ACME_DIRECTORY_URL"
echo " CERTCTL_ACME_INSECURE=$CERTCTL_ACME_INSECURE"
echo " Pebble CA cert: $(ls -la /usr/local/share/ca-certificates/pebble-ca.crt 2>/dev/null || echo 'NOT FOUND')"
echo " step-ca root cert: $(ls -la /usr/local/share/ca-certificates/step-ca-root.crt 2>/dev/null || echo 'NOT FOUND')"
echo " System CA count: $(ls /etc/ssl/certs/*.pem 2>/dev/null | wc -l) PEM files"
echo "=== Starting certctl server ==="
exec /app/server
docs/architecture.md
+13 -7
View File
@@ -90,8 +90,10 @@ flowchart TB
T5["HAProxy\n(combined PEM + reload)"]
T6["Traefik\n(file provider)"]
T7["Caddy\n(admin API / file)"]
T2["F5 BIG-IP\n(proxy agent + iControl REST, planned)"]
T3["IIS\n(agent-local PowerShell, planned)"]
T8["Envoy\n(file-based SDS)"]
T9["Postfix/Dovecot\n(file + service reload)"]
T2["F5 BIG-IP\n(proxy agent + iControl REST)"]
T3["IIS\n(WinRM + local)"]
end
DASH --> API
@@ -119,7 +121,7 @@ The server exposes a REST API under `/api/v1/` and optionally serves the web das
### Agents
Lightweight Go processes that run on or near your infrastructure. Agents generate ECDSA P-256 private keys locally, create CSRs, and submit them to the control plane for signing — private keys never leave agent infrastructure. Agents also handle certificate deployment to target systems (NGINX, Apache httpd, HAProxy fully implemented; F5 BIG-IP, IIS interface only with V2 implementations planned) and report job status. They communicate with the control plane via HTTP and authenticate with API keys.
Lightweight Go processes that run on or near your infrastructure. Agents generate ECDSA P-256 private keys locally, create CSRs, and submit them to the control plane for signing — private keys never leave agent infrastructure. Agents also handle certificate deployment to target systems (NGINX, Apache httpd, HAProxy, Traefik, Caddy, Envoy, Postfix, Dovecot, IIS fully implemented; F5 BIG-IP interface stub only) and report job status. They communicate with the control plane via HTTP and authenticate with API keys.
The agent runs two background loops: a heartbeat (every 60 seconds) to signal it's alive, and a work poll (every 30 seconds) to check for actionable jobs via `GET /api/v1/agents/{id}/work`. Jobs may be `AwaitingCSR` (agent needs to generate key + submit CSR) or `Deployment` (agent needs to deploy a certificate). Private keys are stored in `CERTCTL_KEY_DIR` (default `/var/lib/certctl/keys`) with 0600 permissions.
@@ -416,8 +418,8 @@ The agent deploys certificates using target connectors. Each connector knows how
- **NGINX**: Writes cert/chain/key files to disk, validates config with `nginx -t`, reloads with `nginx -s reload` or `systemctl reload nginx`
- **Apache httpd**: Writes separate cert/chain/key files, validates with `apachectl configtest`, graceful reload
- **HAProxy**: Builds a combined PEM file (cert + chain + key), optionally validates config, reloads via systemctl or signal
- **F5 BIG-IP** (planned): A proxy agent in the same network zone calls the iControl REST API to upload certificate and update SSL profile bindings. The server assigns the work; the proxy agent executes it.
- **IIS** (planned, dual-mode): (1) Agent-local (recommended) — a Windows agent on the IIS box runs PowerShell `Import-PfxCertificate` + `Set-WebBinding` directly. (2) Proxy agent WinRM — for agentless IIS targets, a nearby Windows agent reaches the IIS box via WinRM.
- **F5 BIG-IP**: A proxy agent in the same network zone calls the iControl REST API to upload certificate/key files, install crypto objects, and update the SSL client profile within an atomic transaction. The server assigns the work; the proxy agent executes it.
- **IIS** (implemented, dual-mode): (1) Agent-local (recommended) — a Windows agent on the IIS box runs PowerShell `Import-PfxCertificate` + `Set-WebBinding` directly with PFX conversion and SHA-1 thumbprint computation. (2) Proxy agent WinRM — for agentless IIS targets, a nearby Windows agent reaches the IIS box via WinRM.
The agent handles both the certificate (public) and the private key (read from local key store at `CERTCTL_KEY_DIR`). The control plane never sees the private key and never initiates outbound connections to agents or targets (pull-only model).
@@ -511,6 +513,8 @@ flowchart TB
II --> OC["OpenSSL / Custom CA"]
II --> VP["Vault PKI"]
II --> DC["DigiCert CertCentral"]
II --> SG["Sectigo SCM"]
II --> GC["Google CAS"]
end
subgraph "Target Connectors"
@@ -521,8 +525,10 @@ flowchart TB
TI --> HP["HAProxy"]
TI --> TF["Traefik"]
TI --> CD["Caddy"]
TI --> F5["F5 BIG-IP (interface only)"]
TI --> IIS["IIS (interface only)"]
TI --> EV["Envoy"]
TI --> PO["Postfix/Dovecot"]
TI --> IIS["IIS"]
TI --> F5["F5 BIG-IP"]
end
subgraph "Notifier Connectors"
docs/certctl-for-cert-manager-users.md
+6 -6
View File
@@ -82,7 +82,7 @@ Agents scan configured directories and report back all existing certs. In the da
Set up the same issuer certctl uses for non-Kubernetes certs:
- **ACME** (Let's Encrypt, for public certs)
- **step-ca** (Smallstep, for internal certs)
- **Vault PKI** (planned) (HashiCorp Vault, for enterprise PKI)
- **Vault PKI** (HashiCorp Vault, for enterprise PKI)
- **Private CA** (your own internal root CA)
No new CA infrastructure needed. If cert-manager already uses your CA, certctl points to the same one.
@@ -115,7 +115,7 @@ Certificates are linked to issuers and profiles when created or claimed from dis
If cert-manager and certctl both use the same CA:
- **ACME**: cert-manager uses ClusterIssuer + certctl uses ACME connector → same Let's Encrypt account, transparent coexistence
- **step-ca**: cert-manager uses external issuer CRD + certctl uses step-ca connector → same provisioner, shared certificate inventory
- **Vault PKI** (planned): cert-manager uses external issuer CRD + certctl uses Vault connector → same mount, same audit trail
- **Vault PKI**: cert-manager uses external issuer CRD + certctl uses Vault connector → same mount, same audit trail
No conflict. They just issue certs through the same CA. certctl's discovery scanning finds cert-manager-issued certs and shows them alongside certctl-managed ones.
@@ -138,7 +138,7 @@ For now: cert-manager handles Kubernetes, certctl handles everything else. They
## Next Steps
1. Review [Quick Start](./quickstart.md) for a 5-minute demo
2. Explore [Architecture](./architecture.md#agents) for deployment architecture
3. Read about [Discovery Scanning](./quickstart.md#certificate-discovery) to auto-find certs
4. Check [Helm Chart](../deploy/helm/certctl/) for production Kubernetes deployment
1. Run through the [Quick Start](./quickstart.md) for a 5-minute demo
2. Try the [Multi-Issuer example](../examples/multi-issuer/multi-issuer.md) — manages public and internal certs from one dashboard
3. Explore [Architecture](./architecture.md#agents) for deployment patterns
4. Check the [Helm Chart](../deploy/helm/certctl/) for production Kubernetes deployment
docs/concepts.md
+2 -2
View File
@@ -125,9 +125,9 @@ Agents also report **metadata** about themselves — their operating system, CPU
### Deployment Targets
Targets are the systems where certificates actually get installed — NGINX web servers, Apache httpd servers, HAProxy load balancers, F5 BIG-IP appliances, Microsoft IIS servers. Each target type has a **connector** that knows how to deploy certificates to that specific system (e.g., writing files and reloading NGINX or Apache config, building a combined PEM for HAProxy).
Targets are the systems where certificates actually get installed — NGINX web servers, Apache httpd servers, HAProxy load balancers, Traefik reverse proxies, Caddy servers, Envoy gateways, Postfix/Dovecot mail servers, Microsoft IIS servers, and network appliances. Each target type has a **connector** that knows how to deploy certificates to that specific system (e.g., writing files and reloading NGINX or Apache config, building a combined PEM for HAProxy).
For targets where an agent runs directly on the machine (NGINX, Apache, HAProxy, IIS), the agent deploys certificates locally — no remote access needed. For network appliances where you can't install an agent (F5 BIG-IP, Palo Alto, etc.), a **proxy agent** in the same network zone picks up the deployment job and calls the appliance's API. The server never initiates outbound connections to any target.
For targets where an agent runs directly on the machine (NGINX, Apache, HAProxy, Traefik, Caddy, Envoy, Postfix, Dovecot, IIS), the agent deploys certificates locally — no remote access needed. For network appliances where you can't install an agent (F5 BIG-IP, Palo Alto, etc.), a **proxy agent** in the same network zone picks up the deployment job and calls the appliance's API. The server never initiates outbound connections to any target.
## The Certificate Lifecycle
docs/connectors.md
+196 -23
View File
@@ -21,9 +21,11 @@ Connectors extend certctl to integrate with external systems for certificate iss
- [Built-in: Apache httpd](#built-in-apache-httpd)
- [Built-in: HAProxy](#built-in-haproxy)
- [Built-in: Traefik](#built-in-traefik)
- [Built-in: Envoy](#built-in-envoy)
- [Built-in: Postfix / Dovecot](#built-in-postfix--dovecot)
- [Built-in: Caddy](#built-in-caddy)
- [F5 BIG-IP (Interface Only)](#f5-big-ip-interface-only)
- [IIS (Interface Only, Dual-Mode)](#iis-interface-only-dual-mode)
- [IIS (Implemented, Dual-Mode)](#iis-implemented-dual-mode)
4. [Notifier Connector](#notifier-connector)
- [Interface](#interface-2)
5. [Registering a Connector](#registering-a-connector)
@@ -51,8 +53,8 @@ Connectors extend certctl to integrate with external systems for certificate iss
Three types of connectors:
1. **Issuer Connector** — Obtains certificates from CAs (Local CA with sub-CA support, ACME with HTTP-01 + DNS-01 + DNS-PERSIST-01, step-ca, OpenSSL/Custom CA implemented; additional CA integrations planned)
2. **Target Connector** — Deploys certificates to infrastructure (NGINX, Apache httpd, HAProxy, Traefik, Caddy implemented; F5 via proxy agent, IIS dual-mode interface only; additional cloud and network targets planned)
1. **Issuer Connector** — Obtains certificates from CAs (Local CA with sub-CA support, ACME with HTTP-01 + DNS-01 + DNS-PERSIST-01, step-ca, OpenSSL/Custom CA, Vault PKI, DigiCert implemented; additional CA integrations planned)
2. **Target Connector** — Deploys certificates to infrastructure (NGINX, Apache httpd, HAProxy, Traefik, Caddy, Envoy, Postfix, Dovecot, IIS implemented; F5 via proxy agent planned; additional cloud and network targets planned)
3. **Notifier Connector** — Sends alerts about certificate events (Email, Webhooks, Slack, Microsoft Teams, PagerDuty, OpsGenie implemented)
All connectors accept JSON configuration at initialization, support config validation, and are registered in the service layer. Issuer connectors run on the control plane; target connectors run on agents. For network appliances where agents can't be installed, a **proxy agent** in the same network zone handles deployment — the server never initiates outbound connections.
@@ -353,13 +355,53 @@ The connector submits certificate orders to DigiCert's `/order/certificate/creat
Location: `internal/connector/issuer/digicert/digicert.go`
### Built-in: Sectigo SCM
The Sectigo connector integrates with Sectigo Certificate Manager's REST API for ordering and managing DV, OV, and EV certificates. Like DigiCert, it uses an async order model: submit an enrollment, receive an sslId, then poll for completion.
**Configuration:**
| Variable | Default | Description |
|----------|---------|-------------|
| `CERTCTL_SECTIGO_CUSTOMER_URI` | — | Sectigo customer URI (organization identifier) |
| `CERTCTL_SECTIGO_LOGIN` | — | API account login |
| `CERTCTL_SECTIGO_PASSWORD` | — | API account password |
| `CERTCTL_SECTIGO_ORG_ID` | — | Organization ID (integer) |
| `CERTCTL_SECTIGO_CERT_TYPE` | — | Certificate type ID (integer, from `/ssl/v1/types`) |
| `CERTCTL_SECTIGO_TERM` | `365` | Certificate validity in days |
| `CERTCTL_SECTIGO_BASE_URL` | `https://cert-manager.com/api` | Sectigo API base URL |
The connector submits certificate enrollments to Sectigo's `/ssl/v1/enroll` API. DV certificates may issue immediately; OV/EV certificates require validation (handled by Sectigo) and poll-based completion. The connector periodically checks enrollment status via `/ssl/v1/{sslId}` and downloads the PEM bundle via `/ssl/v1/collect/{sslId}/pem` when issued.
**Authentication:** Three custom headers on every request — `customerUri`, `login`, and `password`.
**Note:** CRL and OCSP are managed by Sectigo. certctl records revocations locally and notifies Sectigo via `/ssl/v1/revoke/{sslId}`.
Location: `internal/connector/issuer/sectigo/sectigo.go`
### Built-in: Google CAS
Google Cloud Certificate Authority Service — managed private CA on GCP. Synchronous issuance via CAS REST API with OAuth2 service account auth.
| Setting | Required | Default | Description |
|---------|----------|---------|-------------|
| `CERTCTL_GOOGLE_CAS_PROJECT` | Yes | — | GCP project ID |
| `CERTCTL_GOOGLE_CAS_LOCATION` | Yes | — | GCP region (e.g., `us-central1`) |
| `CERTCTL_GOOGLE_CAS_CA_POOL` | Yes | — | CA pool name |
| `CERTCTL_GOOGLE_CAS_CREDENTIALS` | Yes | — | Path to service account JSON |
| `CERTCTL_GOOGLE_CAS_TTL` | No | `8760h` | Default certificate TTL |
**Authentication:** OAuth2 service account. The connector reads a service account JSON file, signs a JWT with the private key, and exchanges it for an access token at Google's token endpoint. Tokens are cached and refreshed automatically (5 min before expiry).
**Note:** CRL and OCSP are managed by Google CAS directly. certctl records revocations locally and notifies Google CAS via the revoke endpoint.
Location: `internal/connector/issuer/googlecas/googlecas.go`
### Coming in V2.2+
The following issuer connectors are planned for future releases:
- **Entrust** — Enterprise CA via Entrust API
- **Sectigo** — Commercial CA integration via Sectigo REST API
- **Google CAS** — Google Cloud Certificate Authority Service
- **AWS ACM Private CA** — AWS-managed private CA
Note: ADCS (Active Directory Certificate Services) integration is handled via the **sub-CA mode** of the Local CA issuer, not as a separate connector. certctl operates as a subordinate CA with its signing certificate issued by ADCS, so all certctl-issued certs chain to the enterprise ADCS root. See the Local CA section above.
@@ -590,51 +632,182 @@ When `mode` is `"api"`, the connector posts the certificate to the admin API end
Location: `internal/connector/target/caddy/caddy.go`
### F5 BIG-IP (Interface Only)
### Built-in: Envoy
The F5 BIG-IP target connector interface is defined with the iControl REST flow mapped out, but the actual API calls are not yet implemented. F5 appliances can't run agents directly, so this connector uses the **proxy agent pattern**: a designated agent in the same network zone picks up F5 deployment jobs and calls the iControl REST API. The server assigns the work; the proxy agent executes it.
The Envoy connector uses file-based certificate delivery — it writes certificate and key files to a directory that Envoy watches via its SDS (Secret Discovery Service) file-based configuration or static `filename` references in the bootstrap config. When files change, Envoy automatically picks up the new certificates without requiring a reload command.
The planned flow is: authenticate via `POST /mgmt/shared/authn/login`, upload cert PEM via `POST /mgmt/tm/ltm/certificate`, update the SSL profile via `PATCH /mgmt/tm/ltm/profile/client-ssl/{profile}`, and validate deployment by checking profile status.
Configuration:
```json
{
"cert_dir": "/etc/envoy/certs",
"cert_filename": "cert.pem",
"key_filename": "key.pem",
"chain_filename": "chain.pem",
"sds_config": true
}
```
| Field | Type | Default | Description |
|-------|------|---------|-------------|
| `cert_dir` | string | (required) | Directory where Envoy watches for certificate files |
| `cert_filename` | string | `cert.pem` | Filename for the certificate (leaf + chain unless `chain_filename` is set) |
| `key_filename` | string | `key.pem` | Filename for the private key |
| `chain_filename` | string | (empty) | If set, chain is written to a separate file instead of appended to the cert |
| `sds_config` | bool | `false` | If true, writes an `sds.json` file for Envoy's file-based SDS provider |
When `sds_config` is `true`, the connector writes an SDS JSON file (`{cert_dir}/sds.json`) containing a `tls_certificate` resource that points to the cert and key file paths. Envoy's file-based SDS (`path_config_source`) watches this file for changes, providing automatic hot-reload of certificates. This is the recommended approach for production Envoy deployments using dynamic TLS configuration.
When `sds_config` is `false` (the default), the connector simply writes cert and key files. Use this mode when Envoy's bootstrap config references the cert/key files directly via static `filename` fields in the TLS context.
Location: `internal/connector/target/envoy/envoy.go`
### Built-in: Postfix / Dovecot
The Postfix/Dovecot connector is a dual-mode mail server TLS connector. It writes certificate, key, and chain files to configured paths and reloads the mail service. The `mode` field selects between Postfix MTA and Dovecot IMAP/POP3, which determines default file paths and reload commands.
This connector pairs with certctl's S/MIME certificate support (email protection EKU, email SAN routing) for a complete email infrastructure story — TLS for transport encryption, S/MIME for end-to-end message signing and encryption.
**Postfix configuration:**
```json
{
"mode": "postfix",
"cert_path": "/etc/postfix/certs/cert.pem",
"key_path": "/etc/postfix/certs/key.pem",
"chain_path": "/etc/postfix/certs/chain.pem",
"reload_command": "postfix reload",
"validate_command": "postfix check"
}
```
**Dovecot configuration:**
```json
{
"mode": "dovecot",
"cert_path": "/etc/dovecot/certs/cert.pem",
"key_path": "/etc/dovecot/certs/key.pem",
"chain_path": "/etc/dovecot/certs/chain.pem",
"reload_command": "doveadm reload",
"validate_command": "doveconf -n"
}
```
| Field | Type | Default (Postfix) | Default (Dovecot) | Description |
|-------|------|-------------------|-------------------|-------------|
| `mode` | string | `postfix` | `dovecot` | Service mode — determines defaults |
| `cert_path` | string | `/etc/postfix/certs/cert.pem` | `/etc/dovecot/certs/cert.pem` | Path for certificate file |
| `key_path` | string | `/etc/postfix/certs/key.pem` | `/etc/dovecot/certs/key.pem` | Path for private key (0600 permissions) |
| `chain_path` | string | (empty) | (empty) | If set, chain written separately; otherwise appended to cert |
| `reload_command` | string | `postfix reload` | `doveadm reload` | Command to reload the mail service |
| `validate_command` | string | `postfix check` | `doveconf -n` | Optional config validation before reload |
All commands are validated against shell injection via `validation.ValidateShellCommand()`. File permissions: cert/chain 0644, key 0600.
Location: `internal/connector/target/postfix/postfix.go`
### F5 BIG-IP (Implemented)
The F5 BIG-IP target connector deploys certificates to F5 load balancers via the iControl REST API. F5 appliances can't run agents directly, so this connector uses the **proxy agent pattern**: a designated certctl agent in the same network zone polls for F5 deployment jobs and executes iControl REST calls on behalf of the control plane. Minimum supported BIG-IP version: 12.0+.
The deployment flow uses F5's transaction API for atomic updates: authenticate via token auth, upload cert/key/chain PEM files, install as crypto objects, update the SSL client profile within a transaction, and commit. If the transaction fails, F5 rolls back automatically and the connector cleans up uploaded crypto objects. Updating an SSL profile automatically takes effect on all bound virtual servers — no separate virtual server binding step is needed.
| Field | Type | Default | Description |
|-------|------|---------|-------------|
| `host` | string | *(required)* | F5 BIG-IP management hostname or IP |
| `port` | int | `443` | iControl REST API port |
| `username` | string | *(required)* | Administrative username |
| `password` | string | *(required)* | Administrative password |
| `partition` | string | `Common` | F5 partition for crypto objects and profiles |
| `ssl_profile` | string | *(required)* | SSL client profile name to update |
| `insecure` | bool | `true` | Skip TLS verification for management interface (self-signed certs common) |
| `timeout` | int | `30` | HTTP timeout in seconds |
Configuration (defined, not yet functional):
```json
{
"host": "f5.internal.example.com",
"port": 443,
"username": "admin",
"password": "...",
"partition": "Common",
"ssl_profile": "/Common/clientssl_api"
"ssl_profile": "clientssl_api",
"insecure": true,
"timeout": 30
}
```
Note: F5 credentials are stored on the proxy agent, not on the control plane server. This limits the credential blast radius to the proxy agent's network zone.
F5 credentials are stored on the proxy agent, not on the control plane server. This limits the credential blast radius to the proxy agent's network zone. Config fields are validated against regex patterns to prevent injection.
Location: `internal/connector/target/f5/f5.go`
### IIS (Interface Only, Dual-Mode)
### IIS (Implemented, Dual-Mode)
The IIS target connector supports two planned deployment modes:
The IIS target connector supports two deployment modes — agent-local (recommended) and proxy agent WinRM for agentless targets.
**Agent-local (recommended):** A Windows agent runs directly on the IIS server and deploys certificates using PowerShell — `Import-PfxCertificate` to install into the certificate store and `Set-WebBinding` to bind to the IIS site. This is the preferred approach: no remote access needed, no credential management, same pull-based model as NGINX/Apache/HAProxy.
**Agent-local (recommended):** A Windows agent runs directly on the IIS server and deploys certificates using PowerShell — `Import-PfxCertificate` to install into the certificate store and `Set-WebBinding` to bind to the IIS site. The agent handles PEM-to-PFX conversion via `go-pkcs12`, computes SHA-1 thumbprint from the certificate, and executes parameterized PowerShell scripts for injection-safe binding management. This is the preferred approach: no remote access needed, no credential management, same pull-based model as NGINX/Apache/HAProxy.
**Proxy agent WinRM (for agentless targets):** For Windows servers where you don't want to install an agent, a nearby Windows agent acts as a proxy and reaches the IIS box via WinRM. The proxy agent picks up the deployment job, transfers the PFX bundle over WinRM, and runs the PowerShell commands remotely. WinRM credentials are stored on the proxy agent, not on the control plane.
**Proxy agent WinRM (for agentless targets):** For Windows servers where you don't want to install an agent, a Linux or Windows proxy agent in the same network zone connects via WinRM (Windows Remote Management) and executes PowerShell commands remotely. The PFX bundle is base64-encoded, transferred inline in the WinRM session, decoded to a temp file on the remote host, imported, and the temp file is cleaned up in a `try/finally` block. WinRM credentials are configured on the target, not on the control plane. Uses the `masterzen/winrm` Go library with support for Basic, NTLM, and Kerberos authentication.
Configuration (defined, not yet functional):
**Agent-local configuration:**
```json
{
"mode": "local",
"hostname": "iis-server.example.com",
"site_name": "Default Web Site",
"cert_store": "WebHosting",
"winrm_host": "",
"winrm_username": "",
"winrm_password": "",
"winrm_use_https": true
"port": 443,
"sni": true,
"ip_address": "*",
"binding_info": "www.example.com"
}
```
When `mode` is `"local"`, the `winrm_*` fields are ignored. When `mode` is `"proxy"`, the agent connects to the remote IIS server via WinRM using the provided credentials.
**WinRM proxy configuration:**
```json
{
"hostname": "iis-server.example.com",
"site_name": "Default Web Site",
"cert_store": "WebHosting",
"port": 443,
"sni": true,
"ip_address": "*",
"mode": "winrm",
"winrm": {
"winrm_host": "iis-server.example.com",
"winrm_port": 5985,
"winrm_username": "Administrator",
"winrm_password": "...",
"winrm_https": false,
"winrm_insecure": false,
"winrm_timeout": 60
}
}
```
Location: `internal/connector/target/iis/iis.go`
**Configuration Fields:**
- `hostname` (string, required): IIS server hostname or FQDN
- `site_name` (string, required): IIS website name (e.g., "Default Web Site")
- `cert_store` (string, required): Certificate store for import (e.g., "WebHosting", "My")
- `port` (number, default 443): HTTPS binding port
- `sni` (boolean, default false): Enable Server Name Indication (SNI)
- `ip_address` (string, default "*"): Specific IP to bind to, or "*" for all IPs
- `binding_info` (string, optional): Host header for SNI bindings
- `mode` (string, default "local"): Deployment mode — `local` (agent-local PowerShell) or `winrm` (remote via WinRM)
**WinRM fields (required when `mode` is `winrm`):**
- `winrm.winrm_host` (string, required): Remote Windows server hostname or IP
- `winrm.winrm_port` (number, default 5985 HTTP / 5986 HTTPS): WinRM listener port
- `winrm.winrm_username` (string, required): Windows account with admin privileges
- `winrm.winrm_password` (string, required): Account password
- `winrm.winrm_https` (boolean, default false): Use HTTPS transport
- `winrm.winrm_insecure` (boolean, default false): Skip TLS certificate verification
- `winrm.winrm_timeout` (number, default 60): Operation timeout in seconds
**Security Model:**
- PFX files are transient — generated with random passwords, deleted after import
- In WinRM mode, PFX data is base64-encoded and transferred inline (no SMB/file share needed), with remote temp file cleanup in `try/finally`
- PowerShell commands use parameterized values — IIS names and cert stores are regex-validated before script execution
- Field names are validated against `^[a-zA-Z0-9 _\-\.]+$` to prevent PowerShell injection
- Certificate thumbprints computed via SHA-1 for IIS binding lookups
Location: `internal/connector/target/iis/iis.go`, `internal/connector/target/iis/winrm.go`
## Notifier Connector
docs/demo-advanced.md
+2 -2
View File
@@ -307,8 +307,8 @@ flowchart TD
A --> F["ACME\n(Let's Encrypt)"]
A --> G["step-ca\n(implemented)"]
A --> H["OpenSSL / Custom CA\n(script-based)"]
A --> J["DigiCert API\n(planned)"]
A --> K["Vault PKI\n(planned)"]
A --> J["DigiCert API\n(implemented)"]
A --> K["Vault PKI\n(implemented)"]
A --> L["Entrust / GlobalSign\n(planned)"]
A --> M["Google CAS / EJBCA\n(planned)"]
```
docs/examples.md
+120
View File
@@ -0,0 +1,120 @@
# Deployment Examples
Five turnkey docker-compose scenarios, each runnable in under 5 minutes. Pick the one closest to your setup.
## Which Example Should I Use?
| I need to... | Example | Issuer | Target |
|--------------|---------|--------|--------|
| Get Let's Encrypt certs for NGINX on a public server | [ACME + NGINX](#acme--nginx) | ACME (HTTP-01) | NGINX |
| Issue wildcard certs without opening port 80 | [Wildcard DNS-01](#wildcard-dns-01) | ACME (DNS-01) | Any |
| Run an internal CA for services behind a firewall | [Private CA + Traefik](#private-ca--traefik) | Local CA | Traefik |
| Use Smallstep step-ca as my PKI backend | [step-ca + HAProxy](#step-ca--haproxy) | step-ca | HAProxy |
| Manage both public and internal certs from one dashboard | [Multi-Issuer](#multi-issuer) | ACME + Local CA | Mixed |
**Already using another tool?** See the migration sections below each example for Certbot, acme.sh, and cert-manager users.
---
## ACME + NGINX
**Scenario:** You have one or more public-facing domains, NGINX as the reverse proxy, and want automated Let's Encrypt certificates with HTTP-01 challenges.
**What it deploys:** certctl server + PostgreSQL + certctl agent + NGINX, all on one Docker network. The agent generates keys locally (ECDSA P-256), submits CSRs to the server, receives signed certs from Let's Encrypt, and deploys them to NGINX with automatic reload.
**Prerequisites:** A domain pointing to your server, ports 80 and 443 open, Docker Compose v20.10+.
```bash
cd examples/acme-nginx
cp .env.example .env # Edit with your domain and email
docker compose up -d
```
The full walkthrough — including how HTTP-01 challenges work, adding multiple domains, switching to staging for testing, and a production checklist — is in the [example README](../examples/acme-nginx/acme-nginx.md).
**Migrating from Certbot?** certctl discovers your existing `/etc/letsencrypt/live/` certificates automatically. You keep your ACME account, disable the Certbot cron, and certctl takes over renewal with centralized visibility and deployment verification. The step-by-step process is in [Migrating from Certbot](migrate-from-certbot.md).
---
## Wildcard DNS-01
**Scenario:** You need wildcard certificates (`*.example.com`) or your servers aren't reachable from the internet (no port 80). DNS-01 validates ownership by creating a TXT record at your DNS provider.
**What it deploys:** certctl server + PostgreSQL + certctl agent. Includes a Cloudflare DNS hook script as a working reference — swap in your own DNS provider (Route53, Azure DNS, Google Cloud DNS, or any provider with an API).
**Prerequisites:** A domain, API credentials for your DNS provider, Docker Compose.
```bash
cd examples/acme-wildcard-dns01
cp .env.example .env # Edit with domain, email, DNS provider credentials
docker compose up -d
```
The full walkthrough — including DNS-PERSIST-01 (set a TXT record once, never touch DNS again on renewals), adapting scripts for other providers, and propagation troubleshooting — is in the [example README](../examples/acme-wildcard-dns01/acme-wildcard-dns01.md).
**Migrating from acme.sh?** Your existing `dns_*` hook scripts are compatible with certctl's DNS-01 — they use the same pattern (shell scripts creating TXT records). The migration guide covers script adaptation, discovery of existing acme.sh certificates, and phasing out the acme.sh cron. See [Migrating from acme.sh](migrate-from-acmesh.md).
---
## Private CA + Traefik
**Scenario:** Internal services that don't need public CA validation. You run your own certificate authority — either a self-signed root for development, or a subordinate CA chained to your enterprise root (e.g., Active Directory Certificate Services).
**What it deploys:** certctl server + PostgreSQL + certctl agent + Traefik. The Local CA issuer signs certificates directly. Traefik watches a cert directory and auto-reloads when new files appear.
**Prerequisites:** Docker Compose. For sub-CA mode, you'll need a CA certificate and key signed by your enterprise root.
```bash
cd examples/private-ca-traefik
docker compose up -d # Self-signed mode (no .env needed for demo)
```
The full walkthrough — including sub-CA setup with `CERTCTL_CA_CERT_PATH` and `CERTCTL_CA_KEY_PATH`, creating certificates via the API, monitoring deployments, and production hardening — is in the [example README](../examples/private-ca-traefik/private-ca-traefik.md).
---
## step-ca + HAProxy
**Scenario:** You use Smallstep's step-ca as your private PKI and want automated lifecycle management for certificates deployed to HAProxy load balancers.
**What it deploys:** certctl server + PostgreSQL + certctl agent + step-ca (with JWK provisioner) + HAProxy. certctl issues certs via step-ca's native `/sign` API, combines them into HAProxy's expected PEM format (cert + chain + key in one file), and reloads HAProxy.
**Prerequisites:** Docker Compose.
```bash
cd examples/step-ca-haproxy
docker compose up -d
```
The full walkthrough — including step-ca provisioner configuration, integrating with an existing step-ca instance, HAProxy PEM format details, and advanced features (approval workflows, policy-based renewal, multi-instance HAProxy) — is in the [example README](../examples/step-ca-haproxy/step-ca-haproxy.md).
---
## Multi-Issuer
**Scenario:** You manage both public-facing services (needing Let's Encrypt or another public CA) and internal services (using a private CA) and want a single dashboard for everything.
**What it deploys:** certctl server + PostgreSQL + certctl agent configured with both an ACME issuer and a Local CA issuer. Demonstrates issuer assignment via profiles — public services get ACME certs, internal services get Local CA certs, all visible in one inventory.
**Prerequisites:** Docker Compose. For real ACME certs, a public domain and port 80 access.
```bash
cd examples/multi-issuer
docker compose up -d
```
The full walkthrough — including profile-based issuer assignment, testing with ACME staging, Local CA enterprise sub-CA mode, and scaling beyond Docker Compose — is in the [example README](../examples/multi-issuer/multi-issuer.md).
**Using cert-manager for Kubernetes?** certctl complements cert-manager — cert-manager handles in-cluster certs, certctl handles everything outside: VMs, bare metal, network appliances, Windows servers. They can share the same CA (ACME, step-ca, Vault PKI). See [certctl for cert-manager Users](certctl-for-cert-manager-users.md).
---
## Beyond These Examples
These 5 scenarios cover the most common deployment patterns, but certctl supports 7 issuer backends and 10 target connectors. Once you have the basics running, you can mix and match:
**Issuers:** ACME (Let's Encrypt, ZeroSSL, Buypass, Google Trust Services), Local CA (self-signed or sub-CA), step-ca, Vault PKI, DigiCert CertCentral, OpenSSL/Custom CA script, Sectigo (coming soon).
**Targets:** NGINX, Apache, HAProxy, Traefik, Caddy, Envoy, IIS (local PowerShell or WinRM proxy), Postfix, Dovecot, F5 BIG-IP (coming soon).
See [Connector Reference](connectors.md) for configuration details on every issuer and target.
docs/features.md
+7 -7
View File
@@ -1286,11 +1286,11 @@ The web dashboard is the primary operational interface for certctl. Built with *
- **Docker Tags**`:latest`, `:v{version}` (`shankar0123.docker.scarf.sh/certctl-server`, `shankar0123.docker.scarf.sh/certctl-agent`)
### Test Suite
- **Unit Tests**625+ test functions across service, handler, middleware, domain layers
- **Unit Tests**1,088+ test functions across service, handler, middleware, domain layers
- **Integration Tests** — End-to-end workflows (issuance→renewal→deployment)
- **Negative Tests** — Malformed input, nonexistent resources, error conditions
- **Frontend Tests**86 Vitest tests (API client, utilities, stats/metrics, full endpoint coverage)
- **Total Coverage**900+ tests (Go + frontend combined)
- **Frontend Tests**211 Vitest tests (API client, utilities, stats/metrics, full endpoint coverage)
- **Total Coverage**1,554+ tests (Go + frontend combined)
### Licensing
- **License** — Business Source License 1.1 (BSL 1.1)
@@ -1478,10 +1478,10 @@ Each guide includes an evidence summary table mapping specific criteria to certc
| Category | Count |
|----------|-------|
| **API Endpoints** | 95 (under /api/v1/ + /.well-known/est/) |
| **API Endpoints** | 97 (under /api/v1/ + /.well-known/est/) |
| **Dashboard** | Full web GUI |
| **Issuer Connectors** | 4 (Local CA, ACME, step-ca, OpenSSL) |
| **Target Connectors** | 5 (3 impl: NGINX, Apache, HAProxy; 2 stubs: F5, IIS) |
| **Issuer Connectors** | 6 (Local CA, ACME, step-ca, OpenSSL, Vault PKI, DigiCert) |
| **Target Connectors** | 10 (9 impl: NGINX, Apache, HAProxy, Traefik, Caddy, Envoy, IIS, Postfix, Dovecot; 1 stub: F5) |
| **Notifier Channels** | 6 (Email, Webhook, Slack, Teams, PagerDuty, OpsGenie) |
| **Job Types** | 4 (Issuance, Renewal, Deployment, Validation) |
| **Job States** | 7 (Pending, AwaitingCSR, AwaitingApproval, Running, Completed, Failed, Cancelled) |
@@ -1492,6 +1492,6 @@ Each guide includes an evidence summary table mapping specific criteria to certc
| **MCP Tools** | 76 (16 resource domains) |
| **CLI Subcommands** | 10 |
| **Database Tables** | 19 |
| **Test Suite** | 900+ tests (Go backend + frontend) |
| **Test Suite** | 1,554+ tests (Go backend + frontend) |
| **Environment Variables** | 41+ configuration options |
docs/migrate-from-acmesh.md
+5 -4
View File
@@ -267,8 +267,9 @@ export CERTCTL_ACME_DNS_PRESENT_SCRIPT=/etc/certctl/dns/cloudflare-present.sh
certctl automatically falls back to DNS-01 if the CA doesn't support dns-persist-01 yet.
## Support
## Next Steps
See [Connector Configuration](connectors.md) for advanced ACME options (EAB, ARI, custom timeouts).
See [Discovery Guide](concepts.md#certificate-discovery) for managing discovered certificates at scale.
- Try the [Wildcard DNS-01 example](../examples/acme-wildcard-dns01/acme-wildcard-dns01.md) — a working docker-compose with Cloudflare hooks you can adapt for your DNS provider
- See [Connector Reference](connectors.md) for advanced ACME options (EAB, ARI, custom timeouts)
- See [Discovery Guide](concepts.md#certificate-discovery) for managing discovered certificates at scale
- See all [Deployment Examples](./examples.md) for other scenarios (ACME+NGINX, private CA, step-ca, multi-issuer)
docs/migrate-from-certbot.md
+2 -1
View File
@@ -166,6 +166,7 @@ certctl will stop renewing that cert when the policy is disabled. Certbot resume
## Next Steps
- Try the [ACME + NGINX example](../examples/acme-nginx/acme-nginx.md) — a working docker-compose you can run locally before deploying to production
- Review the [Concepts Guide](./concepts.md) for terminology (profiles, policies, agents, jobs)
- Explore [Network Discovery](./quickstart.md#network-discovery-agentless) to find certificates you didn't know about
- Set up [Kubernetes cert-manager integration](./certctl-for-cert-manager-users.md) if you manage in-cluster certs too
- See all [Deployment Examples](./examples.md) for other scenarios (wildcard DNS-01, private CA, step-ca, multi-issuer)
docs/quickstart.md
+4 -1
View File
@@ -461,7 +461,10 @@ The `-v` flag removes the PostgreSQL data volume for a clean slate.
## What's Next
**Ready to deploy with your stack?** The [Deployment Examples](examples.md) page has 5 turnkey docker-compose scenarios — pick the one closest to your setup and have it running in minutes. It also covers migration paths from Certbot, acme.sh, and cert-manager.
- **[Deployment Examples](examples.md)** — ACME+NGINX, wildcard DNS-01, private CA+Traefik, step-ca+HAProxy, multi-issuer
- **[Advanced Demo](demo-advanced.md)** — Issue a real certificate via the Local CA end-to-end
- **[Architecture](architecture.md)** — How the control plane, agents, and connectors work together
- **[Connector Guide](connectors.md)** — Build custom connectors for your infrastructure
- **[Connector Reference](connectors.md)** — Configuration for all 7 issuers and 10 targets
- **[Concepts Guide](concepts.md)** — TLS certificates, CAs, and private keys explained from scratch
docs/test-env.md
+1068
View File
File diff suppressed because it is too large Load Diff
docs/testing-guide.md
+345 -5
View File
@@ -46,6 +46,7 @@ Comprehensive manual testing playbook. Every test has a concrete command, an exp
- [Part 39: DigiCert Connector (M37)](#part-39-digicert-connector-m37)
- [Part 40: Issuer Catalog Page (M33)](#part-40-issuer-catalog-page-m33)
- [Part 41: Frontend Audit Fixes](#part-41-frontend-audit-fixes)
- [Part 42: IIS Target Connector (M39)](#part-42-iis-target-connector-m39)
- [Release Sign-Off](#release-sign-off)
---
@@ -1599,7 +1600,7 @@ curl -s -w "\nHTTP %{http_code}\n" -X POST -H "$AUTH" -H "$CT" \
---
**Test 7.1.6 — Create IIS target (stub)**
**Test 7.1.6 — Create IIS target**
```bash
curl -s -w "\nHTTP %{http_code}\n" -X POST -H "$AUTH" -H "$CT" \
@@ -5557,6 +5558,137 @@ Comprehensive frontend coverage audit closed 60 gaps between backend capabilitie
---
## Part 42: IIS Target Connector (M39)
The IIS target connector (M39) brings Windows infrastructure lifecycle management to certctl. Dual-mode implementation: agent-local PowerShell (primary) for servers with certctl agent, proxy agent WinRM for agentless Windows targets. Full test suite (28 tests) with mock executor pattern for cross-platform testing. Supports PEM-to-PFX conversion, SHA-1 thumbprint computation, and parameterized PowerShell execution.
### Test Suite Coverage
| Layer | Test Count | Focus | Cross-Platform |
|-------|-----------|-------|-----------------|
| ValidateConfig | 9 | Field validation, defaults, regex enforcement | Yes |
| DeployCertificate | 7 | PFX conversion, script execution, error handling | Yes |
| ValidateDeployment | 5 | Thumbprint verification, binding checks | Mock executor |
| PFX Conversion | 4 | Certificate chain handling, password generation | Yes |
| Helpers | 3 | Thumbprint computation, Windows time conversion | Yes |
| **Total** | **28** | | **26 pass, 2 skip on non-Windows** |
### Automated Tests (qa-smoke-test.sh Part 42)
| # | Test | Assertion |
|---|------|-----------|
| 42.1 | IIS connector imports without error | `internal/connector/target/iis/` builds cleanly |
| 42.2 | ValidateConfig rejects missing hostname | Validation fails when `hostname` absent |
| 42.3 | ValidateConfig rejects missing site_name | Validation fails when `site_name` absent |
| 42.4 | ValidateConfig applies defaults | `port` defaults to 443, `ip_address` to "*" |
| 42.5 | ValidateConfig validates field regex | Rejects field names with invalid characters |
| 42.6 | PEM-to-PFX conversion succeeds | PKCS#12 bundle created with random password |
| 42.7 | SHA-1 thumbprint computed correctly | Matches Go crypto/sha1 output, hex-encoded |
| 42.8 | PowerShell script is parameterized | No unescaped interpolation in generated commands |
| 42.9 | Mock executor pattern works cross-platform | Tests pass on Linux/macOS via mock executor |
| 42.10 | DeployCertificate calls Import-PfxCertificate | PowerShell command includes correct cert store |
| 42.11 | DeployCertificate calls Set-WebBinding | PowerShell command includes site name + thumbprint |
| 42.12 | ValidateDeployment executes Get-IISSiteBinding | Thumbprint comparison happens post-deployment |
| 42.13 | Error cases logged and propagated | TLS verify failure, script timeout errors handled |
| 42.14 | Windows time conversion helpers work | FileTime ↔ time.Time round-trip accurate |
### Manual Tests (Windows Only)
These tests require a real Windows Server 2019+ environment with IIS 10+. Skip on non-Windows platforms.
**42.M1: Agent-Local Deployment — Happy Path**
1. Provision a Windows Server 2019+ VM with IIS installed
2. Download and install certctl-agent binary for windows-amd64
3. Register agent with certctl server via heartbeat endpoint
4. Create IIS target in certctl dashboard:
```json
{
"hostname": "iis-server.local",
"site_name": "Default Web Site",
"cert_store": "WebHosting",
"port": 443,
"sni": true,
"ip_address": "*"
}
```
5. Issue a certificate (e.g., via Local CA)
6. Create deployment job targeting the IIS target
7. Agent polls work endpoint, executes PowerShell
8. Verify on IIS: `Get-IISSiteBinding` shows new binding with correct thumbprint
9. Verify in dashboard: Deployment job shows status=Completed, verified_at timestamp present
**PASS if** certificate deployed to IIS binding with matching thumbprint, deployment job shows Completed with verification success.
**42.M2: Agent-Local Deployment — Renewal**
1. On the same IIS target, trigger renewal of the certificate
2. Verify old certificate remains bound during renewal (until new one succeeds)
3. Verify new certificate is imported and bound after deployment
4. Verify old binding removed or updated in IIS
**PASS if** renewal completes without downtime, old binding replaced with new.
**42.M3: PFX Import to WebHosting Store**
1. Manually generate a test PKCS#12 certificate
2. Via certctl-agent on Windows, verify PowerShell can import to WebHosting store:
```powershell
$pfx = New-Object System.Security.Cryptography.X509Certificates.X509Certificate2
$pfx.Import([System.IO.File]::ReadAllBytes("C:\temp\test.pfx"), $password, "Exportable")
$store = New-Object System.Security.Cryptography.X509Certificates.X509Store("WebHosting", "LocalMachine")
$store.Open("MaxAllowed")
$store.Add($pfx)
```
3. Verify certificate appears in IIS Certificate Manager
**PASS if** certificate imports to WebHosting store successfully.
**42.M4: Binding Verification — Thumbprint Match**
1. Deploy a certificate to an IIS site via certctl
2. Manually run on IIS server:
```powershell
Get-IISSiteBinding -Name "Default Web Site" | Select-Object Thumbprint
```
3. Verify thumbprint matches certificate's SHA-1 hash (as shown in certctl GUI)
**PASS if** thumbprints match exactly (hex-encoded, no colons).
**42.M5: Error Handling — Invalid Site Name**
1. Create IIS target with non-existent site name (e.g., "NonExistentSite")
2. Trigger deployment
3. Verify job fails with error message about invalid site
4. Verify error is logged in agent and audit trail
**PASS if** error handled gracefully, job marked Failed with reason.
**42.M6: Field Validation — Config Injection Attempt**
1. Try to create IIS target with site_name containing PowerShell metacharacters:
```json
{
"site_name": "Default Web Site'; Get-Process; #"
}
```
2. Verify regex validation rejects this (field validation error, not API error)
3. Verify no PowerShell execution occurs
**PASS if** injection attempt blocked by field validation.
**42.M7: SNI vs Non-SNI Binding**
1. Create two IIS targets: one with `sni: true`, one with `sni: false`
2. Deploy certificates to both
3. Verify Set-WebBinding with `-SslFlags 1` (SNI) for first target
4. Verify Set-WebBinding without SslFlags (no SNI) for second target
5. Test TLS connection to both sites, verify SNI-enabled site handles multiple domains correctly
**PASS if** SNI bindings configured correctly per target config.
---
## Release Sign-Off
All tests below must pass before tagging v2.1.0. Each row is one individual test from the guide above. The **Method** column indicates whether `qa-smoke-test.sh` covers the test automatically (**Auto**) or requires hands-on verification (**Manual**).
@@ -5701,7 +5833,7 @@ These must be green before starting manual QA:
| 7.1.3 | Create Apache target | Manual | ☐ | | |
| 7.1.4 | Create HAProxy target | Manual | ☐ | | |
| 7.1.5 | Create F5 BIG-IP target (stub) | Auto | ☑ | 2026-03-30 | |
| 7.1.6 | Create IIS target (stub) | Auto | ☑ | 2026-03-30 | |
| 7.1.6 | Create IIS target | Auto | ☑ | 2026-03-30 | |
| 7.1.7 | Get target verifies type-specific config stored | Manual | ☐ | | |
| 7.1.8 | Update target config | Manual | ☐ | | |
| 7.1.9 | Delete target returns 204 | Auto | ☑ | 2026-03-30 | |
@@ -6182,15 +6314,223 @@ These must be green before starting manual QA:
| 41.m8 | Discovery table — CA badge | Manual | ☐ | | |
| 41.m9 | Fleet overview — macOS display | Manual | ☐ | | |
### Part 43: Sectigo SCM Connector (M43)
**Prerequisites:** Sectigo SCM account with API access, valid customerUri + login + password credentials, at least one cert type available in `/ssl/v1/types`.
#### Automated Tests
| Test | Description | Method | Pass? | Date | Notes |
|------|-------------|--------|-------|------|-------|
| 43.s1 | `IssuerTypeSectigo` constant exists in domain | Auto | ☐ | | `grep 'Sectigo' internal/domain/connector.go` |
| 43.s2 | `SectigoConfig` struct exists in config | Auto | ☐ | | `grep 'SectigoConfig' internal/config/config.go` |
| 43.s3 | `iss-sectigo` in seed_demo.sql | Auto | ☐ | | `grep 'iss-sectigo' migrations/seed_demo.sql` |
| 43.s4 | Sectigo in OpenAPI IssuerType enum | Auto | ☐ | | `grep 'Sectigo' api/openapi.yaml` |
| 43.s5 | Sectigo connector tests pass | Auto | ☐ | | `go test ./internal/connector/issuer/sectigo/... -v` |
| 43.s6 | Sectigo in issuerTypes.ts | Auto | ☐ | | `grep 'Sectigo' web/src/config/issuerTypes.ts` |
| 43.s7 | Frontend build succeeds | Auto | ☐ | | `cd web && npm run build` |
| 43.s8 | Full Go build succeeds | Auto | ☐ | | `go build ./cmd/server/... ./cmd/agent/... ./cmd/cli/... ./cmd/mcp-server/...` |
#### Manual Tests
**43.M1: Validate Sectigo Credentials**
1. Configure env vars: `CERTCTL_SECTIGO_CUSTOMER_URI`, `CERTCTL_SECTIGO_LOGIN`, `CERTCTL_SECTIGO_PASSWORD`, `CERTCTL_SECTIGO_ORG_ID`
2. Start certctl server — verify log line: `Sectigo SCM issuer registered`
3. Call `GET /api/v1/issuers` — verify `iss-sectigo` appears in the list
**PASS if** `iss-sectigo` registered and visible in API.
**43.M2: Enroll DV Certificate**
1. Create a certificate with `issuer_id: iss-sectigo`
2. Trigger issuance — verify enrollment submitted (job enters Pending or AwaitingCSR)
3. If DV, check for immediate issuance or poll via GetOrderStatus
4. Verify `sslId` tracked in job's order_id field
**PASS if** enrollment submits successfully, sslId returned, job state machine progresses.
**43.M3: Async Polling — OV Certificate**
1. Submit OV certificate enrollment (requires org validation)
2. Verify job enters Pending state with sslId in order_id
3. Wait for Sectigo to process (or mock status check)
4. Verify GetOrderStatus returns "pending" → "completed" transition
5. Verify PEM bundle downloaded and parsed (leaf + chain)
**PASS if** async flow works end-to-end with correct status transitions.
**43.M4: Collect Not Ready (400/-183 Handling)**
1. If possible, catch the window where status is "Issued" but cert not yet generated
2. Verify collect endpoint returns 400 with code -183
3. Verify GetOrderStatus treats this as "pending" (not error)
4. Verify next poll succeeds when cert is generated
**PASS if** 400/-183 handled gracefully as pending, not as error.
**43.M5: Revocation**
1. Revoke an issued Sectigo certificate via `POST /api/v1/certificates/{id}/revoke`
2. Verify Sectigo revoke endpoint called (`POST /ssl/v1/revoke/{sslId}`)
3. Verify audit trail records revocation
**PASS if** revocation recorded in certctl and sent to Sectigo.
**43.M6: Auth Header Verification**
1. Inspect network requests to Sectigo API (via proxy or logs)
2. Verify all 3 headers present: `customerUri`, `login`, `password`
3. Verify no `X-DC-DEVKEY` header (DigiCert auth should not leak)
**PASS if** correct 3-header auth on all requests.
### Part 44: Google CAS Issuer Connector (M44)
**Prerequisites:** GCP project with Certificate Authority Service enabled, CA pool created, service account with `roles/privateca.certificateManager`, service account JSON key file.
#### Automated Tests
| Test | Description | Method | Pass? | Date | Notes |
|------|-------------|--------|-------|------|-------|
| 44.s1 | `IssuerTypeGoogleCAS` constant exists in domain | Auto | ☐ | | `grep 'GoogleCAS' internal/domain/connector.go` |
| 44.s2 | `GoogleCASConfig` struct exists in config | Auto | ☐ | | `grep 'GoogleCASConfig' internal/config/config.go` |
| 44.s3 | `iss-googlecas` in seed_demo.sql | Auto | ☐ | | `grep 'iss-googlecas' migrations/seed_demo.sql` |
| 44.s4 | GoogleCAS in OpenAPI IssuerType enum | Auto | ☐ | | `grep 'GoogleCAS' api/openapi.yaml` |
| 44.s5 | Google CAS connector tests pass | Auto | ☐ | | `go test ./internal/connector/issuer/googlecas/... -v` |
| 44.s6 | GoogleCAS in issuerTypes.ts | Auto | ☐ | | `grep 'GoogleCAS' web/src/config/issuerTypes.ts` |
| 44.s7 | Frontend build succeeds | Auto | ☐ | | `cd web && npm run build` |
| 44.s8 | Full Go build succeeds | Auto | ☐ | | `go build ./cmd/server/... ./cmd/agent/... ./cmd/cli/... ./cmd/mcp-server/...` |
#### Manual Tests
**44.M1: Validate Google CAS Credentials**
1. Configure env vars: `CERTCTL_GOOGLE_CAS_PROJECT`, `CERTCTL_GOOGLE_CAS_LOCATION`, `CERTCTL_GOOGLE_CAS_CA_POOL`, `CERTCTL_GOOGLE_CAS_CREDENTIALS`
2. Start certctl server — verify log line: `Google CAS issuer registered`
3. Call `GET /api/v1/issuers` — verify `iss-googlecas` appears in the list
**PASS if** `iss-googlecas` registered and visible in API.
**44.M2: Issue Certificate via Google CAS**
1. Create a certificate with `issuer_id: iss-googlecas`
2. Trigger issuance — verify synchronous issuance (no async polling needed)
3. Verify PEM cert returned with correct CN and SANs
4. Verify certificate resource name stored in order_id field
**PASS if** certificate issued synchronously, PEM valid, resource name tracked.
**44.M3: Renewal via Google CAS**
1. Trigger renewal on a Google CAS-issued certificate
2. Verify new certificate issued (delegates to IssueCertificate)
3. Verify new serial number, updated validity dates
**PASS if** renewal produces new cert with new serial.
**44.M4: Revocation via Google CAS**
1. Revoke a Google CAS-issued certificate via `POST /api/v1/certificates/{id}/revoke`
2. Verify Google CAS revoke endpoint called (`POST {name}:revoke`)
3. Verify revocation reason mapped correctly (RFC 5280 → Google CAS enum)
4. Verify audit trail records revocation
**PASS if** revocation recorded in certctl and sent to Google CAS.
**44.M5: OAuth2 Token Caching**
1. Issue multiple certificates in quick succession
2. Verify token is cached (not re-fetched for every request)
3. Verify token refresh after expiry
**PASS if** token reuse observed, refresh works after expiry.
**44.M6: CA Certificate Retrieval**
1. Call EST cacerts endpoint with Google CAS as issuer
2. Verify CA certificate chain returned from Google CAS fetchCaCerts API
**PASS if** CA cert PEM returned successfully.
### Part 45: F5 BIG-IP Target Connector (M40)
**Prerequisites:** F5 BIG-IP device (v12.0+) with iControl REST enabled, admin credentials, SSL client profile configured, proxy agent in same network zone.
#### Automated Tests
| Test | Description | Method | Pass? | Date | Notes |
|------|-------------|--------|-------|------|-------|
| 45.s1 | `TargetTypeF5` constant exists in domain | Auto | ☐ | | `grep 'TargetTypeF5' internal/domain/connector.go` |
| 45.s2 | F5 connector tests pass | Auto | ☐ | | `go test ./internal/connector/target/f5/... -v` |
| 45.s3 | F5 config fields in TargetsPage.tsx | Auto | ☐ | | `grep 'ssl_profile' web/src/pages/TargetsPage.tsx` |
| 45.s4 | F5 in OpenAPI TargetType enum | Auto | ☐ | | `grep 'F5' api/openapi.yaml` |
| 45.s5 | Agent dispatch handles F5 error return | Auto | ☐ | | `grep 'f5.New' cmd/agent/main.go` |
| 45.s6 | F5 connector docs updated (not "Interface Only") | Auto | ☐ | | `grep 'Implemented' docs/connectors.md` |
| 45.s7 | Frontend build succeeds | Auto | ☐ | | `cd web && npm run build` |
| 45.s8 | Full Go build succeeds | Auto | ☐ | | `go build ./cmd/server/... ./cmd/agent/... ./cmd/cli/... ./cmd/mcp-server/...` |
#### Manual Tests
**45.M1: Validate F5 Connectivity**
1. Configure proxy agent with F5 target (host, username, password, partition, ssl_profile)
2. Trigger ValidateConfig — verify authentication succeeds
3. Verify log line: `F5 configuration validated`
**PASS if** auth token obtained, no errors.
**45.M2: Deploy Certificate to F5**
1. Create certificate, assign to F5 target via proxy agent
2. Trigger deployment — verify full iControl REST flow (upload → install → transaction → profile update → commit)
3. Verify SSL profile updated via F5 management GUI or `GET /mgmt/tm/ltm/profile/client-ssl/~Common~{profile}`
4. Verify virtual servers bound to the profile serve the new cert
**PASS if** certificate deployed, profile updated, virtual servers serving new cert.
**45.M3: Deploy Without Chain**
1. Issue a cert without chain (self-signed or single-issuer)
2. Deploy to F5 — verify chain upload/install steps are skipped
3. Verify profile updated with cert and key only (no chain field)
**PASS if** deployment succeeds without chain, profile has cert/key but no chain.
**45.M4: Transaction Rollback on Failure**
1. Configure an invalid SSL profile name
2. Trigger deployment — verify upload/install succeeds but profile update fails
3. Verify transaction rolled back (F5 auto-rollback)
4. Verify cleanup: uploaded crypto objects deleted from F5
**PASS if** error reported, crypto objects cleaned up.
**45.M5: Validate Deployment**
1. After successful deployment, call ValidateDeployment
2. Verify SSL profile queried and cert name returned in metadata
3. Verify `current_cert` metadata matches the deployed cert object name
**PASS if** validation returns Valid=true with correct cert reference.
**45.M6: Token Refresh on 401**
1. Deploy with valid credentials
2. Wait for token to expire (or manually invalidate)
3. Trigger another deployment — verify automatic re-authentication and retry
**PASS if** deployment succeeds after token refresh.
### Summary
| Category | Count |
|----------|-------|
| ☑ Auto (passed in `qa-smoke-test.sh`) | 144 |
| ☐ Auto (not yet run) | 12 |
| ☐ Auto (not yet run) | 36 |
| — Skipped (preconditions not met in demo) | 5 |
| ☐ Manual (requires hands-on verification) | 241 |
| **Total** | **402** |
| ☐ Manual (requires hands-on verification) | 259 |
| **Total** | **444** |
**Automated tests must also be green.** CI passing is necessary but not sufficient — this manual QA catches integration issues that isolated unit tests miss.
docs/why-certctl.md
+75 -40
View File
@@ -1,82 +1,117 @@
# Why certctl?
Certificate management is broken at every scale between "one domain on Let's Encrypt" and "Fortune 500 budget for Venafi."
Certificate management is broken at every scale between "one domain on Let's Encrypt" and "Fortune 500 budget for Venafi." certctl fills that gap: a self-hosted platform that automates the entire certificate lifecycle, works with any CA, deploys to any server, and keeps private keys on your infrastructure. It's free, source-available, and you own everything.
If you run a personal blog, Certbot works fine. If your company spends $200K/year on Keyfactor, you're covered. But if you're an ops engineer managing 20-500 certificates across NGINX, Apache, HAProxy, and maybe a private CA — the tools available today either don't do enough or cost too much.
## The Math That Forces the Decision
certctl fills that gap.
The CA/Browser Forum passed [Ballot SC-081v3](https://cabforum.org/2025/04/11/ballot-sc081v3-introduce-schedule-of-reducing-validity-and-data-reuse-periods/) in April 2025, mandating a phased reduction in TLS certificate lifetimes: **200 days** as of March 2026, **100 days** by March 2027, and **47 days** by March 2029.
## The Problem
At 47-day lifespans, a team managing 100 certificates is processing **7+ renewals per week**, every week, forever. At 200 certificates, it's two per day. Manual processes, calendar reminders, and certbot cron jobs don't scale to this — a single missed renewal becomes a production outage at 3 AM. Certificate lifecycle automation is no longer optional; the only question is what tool runs it.
The CA/Browser Forum passed [Ballot SC-081v3](https://cabforum.org/2025/04/11/ballot-sc081v3-introduce-schedule-of-reducing-validity-and-data-reuse-periods/) in April 2025, mandating a phased reduction in TLS certificate lifetimes: 200 days as of March 2026, 100 days by March 2027, and 47 days by March 2029. That means every organization needs automated certificate renewal — not eventually, but now.
## The Landscape Today
The existing options for automation are:
If you're evaluating your options, here's what you'll find:
- **ACME clients** (Certbot, Lego, CertWarden): Handle issuance and renewal for ACME-compatible CAs, but don't manage deployment to target servers, don't provide inventory visibility, don't support non-ACME CAs, and don't offer audit trails or policy enforcement.
- **Kubernetes-native** (cert-manager): Works well inside Kubernetes, but if your infrastructure includes bare-metal servers, VMs, or network appliances alongside Kubernetes, you need a separate solution for everything cert-manager can't reach.
- **Commercial SaaS** (CertKit, Sectigo CLM): Handle more of the lifecycle but are proprietary, cloud-dependent, and priced per certificate — costs scale linearly with your infrastructure.
- **Enterprise platforms** (Venafi, Keyfactor, AppViewX): Comprehensive but start at $75K/year and require dedicated teams to operate.
**ACME clients** (certbot, lego, acme.sh) handle issuance and renewal for Let's Encrypt and similar CAs, but they don't deploy to target servers, don't track inventory, don't support private CAs, and give you no audit trail or policy enforcement. You end up writing glue scripts and hoping they don't break.
**Kubernetes-native tools** (cert-manager) work well inside the cluster, but most organizations run mixed infrastructure — NGINX on VMs, HAProxy at the edge, IIS on Windows, maybe an F5. You need a separate solution for everything outside Kubernetes.
**Commercial SaaS platforms** handle more of the lifecycle but are proprietary, cloud-dependent, and priced per certificate. At 100 certs and 20 agents, SaaS pricing runs $3,000-5,000/year and scales linearly. You're paying rent on your own infrastructure's security.
**Enterprise platforms** (Venafi, Keyfactor, AppViewX) are comprehensive but start at $75K/year and require dedicated teams to operate. If you have a 50-server environment, the licensing costs more than the servers.
## What certctl Does Differently
certctl is a self-hosted certificate lifecycle platform. It handles issuance, renewal, deployment, revocation, discovery, and monitoring — with three design decisions that no other tool at any price point combines:
certctl handles issuance, renewal, deployment, revocation, discovery, and monitoring — with three design decisions that no other tool at any price point combines:
### 1. Private Keys Never Leave Your Infrastructure
certctl agents generate private keys locally using ECDSA P-256. The agent creates a CSR and submits it to the control plane. The signed certificate comes back. The private key stays on the agent's filesystem with 0600 permissions.
certctl agents generate ECDSA P-256 private keys locally. The agent creates a CSR and submits it to the control plane. The signed certificate comes back. The private key stays on the agent's filesystem with 0600 permissions — it never crosses the network.
This isn't a premium feature — it's the default behavior in the free tier. Most competitors either generate keys server-side (creating a single point of compromise) or gate key isolation behind paid tiers.
This isn't a premium feature. It's the default behavior, free. Most alternatives either generate keys on the server (creating a single point of compromise) or gate key isolation behind paid tiers.
### 2. CA-Agnostic Issuer Architecture
certctl works with any certificate authority, not just ACME providers:
certctl works with any certificate authority, not just ACME providers. Seven issuer connectors ship today, all free:
- **ACME** (Let's Encrypt, ZeroSSL, Google Trust Services, Buypass) — HTTP-01 and DNS-01 challenges, DNS-PERSIST-01 for zero-touch renewals, External Account Binding
- **step-ca** (Smallstep) — native /sign API with JWK provisioner authentication
- **Local CA** — self-signed or sub-CA mode (chain to your enterprise root CA, e.g. ADCS)
- **OpenSSL / Custom CA** — delegate signing to any shell script with configurable timeout
- **EST enrollment** (RFC 7030) — device certificate enrollment for WiFi/802.1X, MDM, and IoT
- **ACME v2** (Let's Encrypt, ZeroSSL, Google Trust Services, Buypass) — HTTP-01, DNS-01, DNS-PERSIST-01 challenges, External Account Binding, ACME Renewal Information (RFC 9702)
- **HashiCorp Vault PKI**`/v1/{mount}/sign/{role}` API, token auth
- **DigiCert CertCentral** — async order model, OV/EV support
- **step-ca** (Smallstep) — native /sign API with JWK provisioner auth
- **Local CA** — self-signed or sub-CA mode (chain to ADCS or any enterprise root)
- **OpenSSL / Custom CA** — delegate signing to any shell script
- **EST enrollment** (RFC 7030) — device certs for WiFi/802.1X, MDM, IoT
Every issuer connector implements the same interface. Switching CAs or running multiple CAs in parallel requires zero code changes — just configuration.
Every connector implements the same interface. Running multiple CAs in parallel — Let's Encrypt for public certs, Vault for internal services, your enterprise CA for legacy systems — is configuration, not code.
### 3. Post-Deployment Verification
Every other tool in this space stops at "the deployment command succeeded." certctl goes further: after deploying a certificate to a target, the agent connects back to the target's TLS endpoint and verifies the served certificate matches what was deployed, using SHA-256 fingerprint comparison.
Every other tool in this space stops at "the deployment command succeeded." certctl goes further: after deploying a certificate, the agent connects back to the live TLS endpoint and compares the SHA-256 fingerprint of the served certificate against what was deployed.
A reload command can exit 0 while the certificate doesn't take effect — wrong virtual host, stale cache, config that validates but doesn't apply. certctl catches this.
A reload command can exit 0 while the certificate doesn't take effect — wrong virtual host, stale cache, config that validates but doesn't apply. certctl catches this automatically.
## What Else Ships Free
The three differentiators above get the headlines, but the feature surface is wider than most paid platforms:
**10 deployment targets** — NGINX, Apache, HAProxy, Traefik, Caddy, Envoy, IIS (local PowerShell + remote WinRM), Postfix, and Dovecot. All use a pluggable connector model. The control plane never initiates outbound connections — agents poll for work, meaning certctl works behind firewalls, across network zones, and in air-gapped environments.
**Network certificate discovery** — active TLS scanning of CIDR ranges finds certificates you didn't know existed. Agents also scan local filesystems for PEM/DER files. Everything feeds into a triage workflow where you claim, dismiss, or import discovered certs into management.
**Immutable audit trail** — every API call recorded (method, path, actor, body hash, status, latency). Every certificate lifecycle event tracked. Append-only, no update or delete. Mapped to SOC 2, PCI-DSS 4.0, and NIST SP 800-57 compliance frameworks with published evidence guides.
**Policy engine** — 5 rule types (allowed issuers, allowed domains, required metadata, allowed environments, renewal lead time) with violation tracking and severity levels.
**PKI compliance** — DER-encoded X.509 CRL signed by issuing CA, embedded OCSP responder, RFC 5280 revocation with all reason codes, short-lived certificate exemption.
**Prometheus metrics** — `/api/v1/metrics/prometheus` in standard exposition format. Works with Prometheus, Grafana Agent, Datadog Agent, Victoria Metrics.
**MCP server** — 80 tools exposing the entire API surface for AI-assisted certificate management via Claude, Cursor, or any MCP-compatible client. No other certificate platform offers this.
**Full REST API** — 97 OpenAPI 3.1-documented operations. CLI tool with 10 subcommands. Helm chart for Kubernetes deployment. Scheduled certificate digest emails. Certificate export in PEM and PKCS#12. S/MIME support with EKU-aware issuance.
**1,554 tests** — Go backend with race detection, static analysis (golangci-lint), and vulnerability scanning (govulncheck) on every commit. Frontend test suite. CI runs on every push.
## How certctl Compares
### vs. CertKit
### vs. ACME Clients
Closest competitor architecturally — agent-based, private key isolation (Keystore), multi-platform. certctl leads on issuer coverage (ACME + step-ca + Local CA + OpenSSL + EST vs. ACME-only), PKI compliance (CRL, OCSP, RFC 5280 revocation, immutable audit trail — all missing from CertKit today), policy engine (5 rule types vs. none), and network discovery (CIDR TLS scanning vs. none). certctl is source-available (BSL 1.1 → Apache 2.0) with no cert limit; CertKit is proprietary SaaS with a 3-cert free tier. Where CertKit leads: more deployment targets today (adds LiteSpeed, IIS, auto-detection), Windows support, Kubernetes, and polished SaaS onboarding.
ACME clients solve one slice of the problem — issuance and renewal from ACME CAs. certctl replaces the ACME client, adds 6 more CA integrations, deploys the cert to the right server, verifies it's live, tracks it in an inventory, alerts on expiry, logs everything to an audit trail, and enforces policy. If you're currently running certbot behind a cron job and a prayer, certctl replaces all of it.
### vs. KeyTalk
### vs. Agent-Based SaaS
Commercial (proprietary) PKI platform from a Dutch company — on-prem appliance, cloud, or managed service. Broader cert type coverage (TLS, S/MIME, device auth, VPN) and DigiCert + SCEP integrations. No public documentation on policy engine, API surface, or audit capabilities. No free tier, no public pricing. certctl trades breadth of cert types for full transparency — source-available, public API spec, free community edition with no limits.
The closest architectural competitors use the same agent model — local key generation, CSR submission, push-based deployment. Where certctl differs: it supports 7 issuer types (not just ACME), provides CRL/OCSP/revocation infrastructure (not just issuance), includes a policy engine and network discovery, and is source-available with no certificate limit. SaaS alternatives are typically proprietary, priced per certificate ($2+/cert/month), and cap their free tiers at 3-5 certificates. certctl is free for any number of certificates, forever.
### vs. Enterprise Platforms (Venafi, Keyfactor)
### vs. Commercial PKI Platforms
Comprehensive solutions with decades of features — at $75K-$250K+/yr. certctl targets organizations that need 80% of those capabilities at 1% of the cost. The trade-off: no SSO/RBAC yet (coming in certctl Pro), no F5/IIS target connectors yet, no SLA-backed support.
On-prem or hosted commercial platforms offer broader cert type coverage (VPN certs, device auth, SCEP) and deeper CA integrations. The trade-off: no free tier, opaque pricing (often €13K+/year for 1,500 certs), proprietary codebases, and no public API documentation. certctl trades breadth of exotic cert types for full transparency — source-available code, 97-operation OpenAPI spec, and a free community edition with no artificial limits.
## Getting Started
### vs. Enterprise Platforms
Venafi and Keyfactor offer decades of features at $75K-$250K+/year. certctl targets organizations that need 80% of those capabilities at a fraction of the cost. What certctl doesn't have yet: SSO/RBAC (coming in certctl Pro), vendor SLA-backed support. What certctl does have that enterprise platforms don't: an MCP server for AI-assisted management, ACME ARI (RFC 9702) for CA-directed renewal timing, and a deployment model that works in 5 minutes instead of 5 months.
## Who Should Look Elsewhere
certctl isn't the right tool for everyone:
- **Single-domain sites** — if you have one certificate on one server, certbot is fine. certctl is designed for managing tens to hundreds of certificates across multiple servers and CAs.
- **Pure Kubernetes environments** — if every workload runs in-cluster and you're happy with cert-manager, there's no reason to add another tool. certctl shines when your infrastructure extends beyond Kubernetes.
- **Organizations that need a vendor SLA today** — certctl is source-available software maintained by a small team. If you need contractual uptime guarantees and a support hotline, an enterprise platform is the right choice (for now).
## See It Running
The demo seeds 32 certificates across 7 issuers, 8 agents, 6 deployment targets, and 180 days of realistic history — jobs, audit events, discovery scans, approval workflows — so you can explore every feature immediately.
```bash
# Clone and start with Docker Compose (includes demo data)
git clone https://github.com/shankar0123/certctl.git
cd certctl/deploy
docker compose up -d
# Open the dashboard
open http://localhost:8443
cd certctl/deploy && docker compose up -d
# Dashboard at http://localhost:8443
```
The demo seeds 35 certificates across 5 issuers, 8 agents, 8 deployment targets, 90 days of job history, discovery scan data, network scan targets, and pending approval jobs so you can explore every feature immediately.
See the [Quickstart Guide](quickstart.md) for a full walkthrough.
See the [Quickstart Guide](quickstart.md) for a full walkthrough, or explore the [5 turnkey examples](../examples/) for specific scenarios (ACME+NGINX, wildcard DNS-01, private CA+Traefik, step-ca+HAProxy, multi-issuer).
## License
certctl is licensed under the [Business Source License 1.1](../LICENSE). The licensed work is free to use for any purpose other than offering a competing managed service. The license converts to Apache 2.0 on March 1, 2033.
certctl is source-available under the [Business Source License 1.1](../LICENSE). Free for any use except offering a competing managed service. Converts to Apache 2.0 on March 1, 2033.
The source is available, auditable, and self-hostable. You own your data, your keys, and your deployment.
You own your data, your keys, and your deployment.
examples/acme-nginx/acme-nginx.md
+12 -10
View File
@@ -13,16 +13,18 @@ This example demonstrates certctl's core use case: **automatically manage TLS ce
## Architecture
```
Your Domain (example.com)
↓ [HTTP-01 validation, port 80]
Let's Encrypt ACME
↓ [CSR submission]
certctl Server (control plane)
↓ [API polling]
certctl Agent (on NGINX server)
↓ [deploy cert+key]
NGINX Reverse Proxy
```mermaid
flowchart TD
A["Your Domain (example.com)"]
B["Let's Encrypt ACME"]
C["certctl Server (control plane)"]
D["certctl Agent (on NGINX server)"]
E["NGINX Reverse Proxy"]
A -->|HTTP-01 validation<br/>port 80| B
B -->|CSR submission| C
C -->|API polling| D
D -->|deploy cert+key| E
```
## Prerequisites
examples/acme-nginx/docker-compose.yml
+2 -2
View File
@@ -26,7 +26,7 @@ services:
container_name: certctl-server-acme-nginx
environment:
# Database
DATABASE_URL: postgres://certctl:${DB_PASSWORD:-certctl-dev-password}@postgres:5432/certctl?sslmode=disable
CERTCTL_DATABASE_URL: postgres://certctl:${DB_PASSWORD:-certctl-dev-password}@postgres:5432/certctl?sslmode=disable
# Server settings
CERTCTL_SERVER_PORT: 8443
@@ -61,7 +61,7 @@ services:
networks:
- certctl-network
healthcheck:
test: ['CMD-SHELL', 'curl -sf http://localhost:8443/api/v1/health || exit 1']
test: ['CMD-SHELL', 'curl -sf http://localhost:8443/health || exit 1']
interval: 10s
timeout: 5s
retries: 3
examples/acme-wildcard-dns01/docker-compose.yml
+2 -2
View File
@@ -50,7 +50,7 @@ services:
container_name: certctl-server-dns01
environment:
# Database
DATABASE_URL: postgres://certctl:${DB_PASSWORD:-certctl-dev-password}@postgres:5432/certctl?sslmode=disable
CERTCTL_DATABASE_URL: postgres://certctl:${DB_PASSWORD:-certctl-dev-password}@postgres:5432/certctl?sslmode=disable
# Server settings
CERTCTL_SERVER_PORT: 8443
@@ -113,7 +113,7 @@ services:
- certctl-network
healthcheck:
test: ['CMD-SHELL', 'curl -sf http://localhost:8443/api/v1/health || exit 1']
test: ['CMD-SHELL', 'curl -sf http://localhost:8443/health || exit 1']
interval: 10s
timeout: 5s
retries: 3
examples/multi-issuer/docker-compose.yml
+2 -2
View File
@@ -27,7 +27,7 @@ services:
container_name: certctl-server-multi-issuer
environment:
# Database
DATABASE_URL: postgres://certctl:${DB_PASSWORD:-certctl-dev-password}@postgres:5432/certctl?sslmode=disable
CERTCTL_DATABASE_URL: postgres://certctl:${DB_PASSWORD:-certctl-dev-password}@postgres:5432/certctl?sslmode=disable
# Server settings
CERTCTL_SERVER_PORT: 8443
@@ -64,7 +64,7 @@ services:
networks:
- certctl-network
healthcheck:
test: ['CMD-SHELL', 'curl -sf http://localhost:8443/api/v1/health || exit 1']
test: ['CMD-SHELL', 'curl -sf http://localhost:8443/health || exit 1']
interval: 10s
timeout: 5s
retries: 3
examples/multi-issuer/multi-issuer.md
+24 -22
View File
@@ -13,27 +13,29 @@ With certctl, both issuer types are configured and available. You assign each ce
## Architecture
```
┌─────────────────────────────────────────────────────────────────┐
certctl Server (Control Plane)
│ - Let's Encrypt ACME issuer (HTTP-01 challenges)
│ - Local CA issuer (self-signed or sub-CA mode)
│ - PostgreSQL database (cert inventory, audit, jobs)
└─────────────────────────────────────────────────────────────────┘
│ API polling
┌─────────────────────────────────────────────────────────────────┐
│ certctl Agent │
│ - Discovers existing certs in /etc/nginx/ssl and /etc/app/ssl │
│ - Polls server for renewal/issuance/deployment jobs │
│ - Generates keys locally (agent-side crypto) │
│ - Deploys certs to NGINX and app service directories │
└─────────────────────────────────────────────────────────────────┘
│ │
▼ ▼
NGINX (public TLS) App Services (internal TLS)
(Let's Encrypt certs) (Local CA certs)
```mermaid
flowchart TD
subgraph Server ["certctl Server (Control Plane)"]
A["Let's Encrypt ACME issuer<br/>(HTTP-01 challenges)"]
B["Local CA issuer<br/>(self-signed or sub-CA mode)"]
C["PostgreSQL database<br/>(cert inventory, audit, jobs)"]
end
subgraph Agent ["certctl Agent"]
D["Discovers existing certs<br/>(/etc/nginx/ssl, /etc/app/ssl)"]
E["Polls server for<br/>renewal/issuance/deployment jobs"]
F["Generates keys locally<br/>(agent-side crypto)"]
G["Deploys certs to NGINX<br/>and app service directories"]
end
subgraph Targets ["Target Services"]
H["NGINX (public TLS)<br/>(Let's Encrypt certs)"]
I["App Services (internal TLS)<br/>(Local CA certs)"]
end
Server -->|API polling| Agent
Agent -->|Deploy| H
Agent -->|Deploy| I
```
## Prerequisites
@@ -212,7 +214,7 @@ Each agent independently manages its local cert inventory and deployments. The s
- For ACME, ensure ports 80/443 are open and your domain resolves
### Agent can't reach server
- Check network: `docker compose exec certctl-agent curl http://certctl-server:8443/api/v1/health`
- Check network: `docker compose exec certctl-agent curl http://certctl-server:8443/health`
- Verify `CERTCTL_SERVER_URL` environment variable
### No issuers showing up
examples/private-ca-traefik/docker-compose.yml
+2 -2
View File
@@ -26,7 +26,7 @@ services:
container_name: certctl-server-private-ca
environment:
# Database
DATABASE_URL: postgres://certctl:${DB_PASSWORD:-certctl-dev-password}@postgres:5432/certctl?sslmode=disable
CERTCTL_DATABASE_URL: postgres://certctl:${DB_PASSWORD:-certctl-dev-password}@postgres:5432/certctl?sslmode=disable
# Server settings
CERTCTL_SERVER_PORT: 8443
@@ -77,7 +77,7 @@ services:
networks:
- certctl-network
healthcheck:
test: ['CMD-SHELL', 'curl -sf http://localhost:8443/api/v1/health || exit 1']
test: ['CMD-SHELL', 'curl -sf http://localhost:8443/health || exit 1']
interval: 10s
timeout: 5s
retries: 3
examples/private-ca-traefik/private-ca-traefik.md
+10 -23
View File
@@ -17,29 +17,16 @@ This example demonstrates certctl managing certificates for **internal services
## Architecture
```
┌──────────────────┐
certctl-server(Local CA issuer)
│ (control │
│ plane) │
└────────┬─────────┘
REST API (job polling)
┌────────▼──────────┐
│ certctl-agent │ (certificate deployer)
└────────┬──────────┘
│ Write cert/key files
┌────────▼──────────────────────┐
│ Traefik │
│ (watches cert directory) │
└────────────────────────────────┘
│ TLS handshakes
[Internal Services]
```mermaid
flowchart TD
A["certctl-server<br/>(control plane)<br/>(Local CA issuer)"]
B["certctl-agent<br/>(certificate deployer)"]
C["Traefik<br/>(watches cert directory)"]
D["[Internal Services]"]
A -->|REST API<br/>job polling| B
B -->|Write cert/key files| C
C -->|TLS handshakes| D
```
## Quick Start (Self-Signed CA)
examples/step-ca-haproxy/docker-compose.yml
+2 -2
View File
@@ -81,7 +81,7 @@ services:
container_name: certctl-server-stepca-haproxy
environment:
# Database
DATABASE_URL: postgres://certctl:${DB_PASSWORD:-certctl-dev-password}@postgres:5432/certctl?sslmode=disable
CERTCTL_DATABASE_URL: postgres://certctl:${DB_PASSWORD:-certctl-dev-password}@postgres:5432/certctl?sslmode=disable
# Server settings
CERTCTL_SERVER_PORT: 8443
@@ -119,7 +119,7 @@ services:
networks:
- certctl-network
healthcheck:
test: ['CMD-SHELL', 'curl -sf http://localhost:8443/api/v1/health || exit 1']
test: ['CMD-SHELL', 'curl -sf http://localhost:8443/health || exit 1']
interval: 10s
timeout: 5s
retries: 3
examples/step-ca-haproxy/step-ca-haproxy.md
+1 -1
View File
@@ -315,7 +315,7 @@ Common issues:
Verify network:
```bash
docker compose exec certctl-agent curl http://certctl-server:8443/api/v1/health
docker compose exec certctl-agent curl http://certctl-server:8443/health
```
### HAProxy config validation fails
go.mod
+22 -2
View File
@@ -9,12 +9,19 @@ require (
github.com/testcontainers/testcontainers-go v0.35.0
)
require golang.org/x/crypto v0.31.0
require (
golang.org/x/crypto v0.31.0
software.sslmate.com/src/go-pkcs12 v0.7.0
)
require (
dario.cat/mergo v1.0.0 // indirect
github.com/Azure/go-ansiterm v0.0.0-20210617225240-d185dfc1b5a1 // indirect
github.com/Azure/go-ntlmssp v0.0.0-20221128193559-754e69321358 // indirect
github.com/ChrisTrenkamp/goxpath v0.0.0-20210404020558-97928f7e12b6 // indirect
github.com/Microsoft/go-winio v0.6.2 // indirect
github.com/bodgit/ntlmssp v0.0.0-20240506230425-31973bb52d9b // indirect
github.com/bodgit/windows v1.0.1 // indirect
github.com/cenkalti/backoff/v4 v4.2.1 // indirect
github.com/containerd/containerd v1.7.18 // indirect
github.com/containerd/log v0.1.0 // indirect
@@ -29,12 +36,23 @@ require (
github.com/go-logr/logr v1.4.1 // indirect
github.com/go-logr/stdr v1.2.2 // indirect
github.com/go-ole/go-ole v1.2.6 // indirect
github.com/gofrs/uuid v4.4.0+incompatible // indirect
github.com/gogo/protobuf v1.3.2 // indirect
github.com/google/jsonschema-go v0.4.2 // indirect
github.com/hashicorp/go-cleanhttp v0.5.2 // indirect
github.com/hashicorp/go-uuid v1.0.3 // indirect
github.com/jcmturner/aescts/v2 v2.0.0 // indirect
github.com/jcmturner/dnsutils/v2 v2.0.0 // indirect
github.com/jcmturner/gofork v1.7.6 // indirect
github.com/jcmturner/goidentity/v6 v6.0.1 // indirect
github.com/jcmturner/gokrb5/v8 v8.4.4 // indirect
github.com/jcmturner/rpc/v2 v2.0.3 // indirect
github.com/klauspost/compress v1.17.4 // indirect
github.com/kr/text v0.2.0 // indirect
github.com/lufia/plan9stats v0.0.0-20211012122336-39d0f177ccd0 // indirect
github.com/magiconair/properties v1.8.7 // indirect
github.com/masterzen/simplexml v0.0.0-20190410153822-31eea3082786 // indirect
github.com/masterzen/winrm v0.0.0-20250927112105-5f8e6c707321 // indirect
github.com/moby/docker-image-spec v1.3.1 // indirect
github.com/moby/patternmatcher v0.6.0 // indirect
github.com/moby/sys/sequential v0.5.0 // indirect
@@ -52,6 +70,7 @@ require (
github.com/shoenig/go-m1cpu v0.1.6 // indirect
github.com/sirupsen/logrus v1.9.3 // indirect
github.com/stretchr/testify v1.9.0 // indirect
github.com/tidwall/transform v0.0.0-20201103190739-32f242e2dbde // indirect
github.com/tklauser/go-sysconf v0.3.12 // indirect
github.com/tklauser/numcpus v0.6.1 // indirect
github.com/yosida95/uritemplate/v3 v3.0.2 // indirect
@@ -60,8 +79,9 @@ require (
go.opentelemetry.io/otel v1.24.0 // indirect
go.opentelemetry.io/otel/metric v1.24.0 // indirect
go.opentelemetry.io/otel/trace v1.24.0 // indirect
golang.org/x/net v0.23.0 // indirect
golang.org/x/oauth2 v0.34.0 // indirect
golang.org/x/sys v0.40.0 // indirect
golang.org/x/text v0.21.0 // indirect
gopkg.in/yaml.v3 v3.0.1 // indirect
software.sslmate.com/src/go-pkcs12 v0.7.0 // indirect
)
go.sum
+59
View File
@@ -4,8 +4,16 @@ github.com/AdaLogics/go-fuzz-headers v0.0.0-20230811130428-ced1acdcaa24 h1:bvDV9
github.com/AdaLogics/go-fuzz-headers v0.0.0-20230811130428-ced1acdcaa24/go.mod h1:8o94RPi1/7XTJvwPpRSzSUedZrtlirdB3r9Z20bi2f8=
github.com/Azure/go-ansiterm v0.0.0-20210617225240-d185dfc1b5a1 h1:UQHMgLO+TxOElx5B5HZ4hJQsoJ/PvUvKRhJHDQXO8P8=
github.com/Azure/go-ansiterm v0.0.0-20210617225240-d185dfc1b5a1/go.mod h1:xomTg63KZ2rFqZQzSB4Vz2SUXa1BpHTVz9L5PTmPC4E=
github.com/Azure/go-ntlmssp v0.0.0-20221128193559-754e69321358 h1:mFRzDkZVAjdal+s7s0MwaRv9igoPqLRdzOLzw/8Xvq8=
github.com/Azure/go-ntlmssp v0.0.0-20221128193559-754e69321358/go.mod h1:chxPXzSsl7ZWRAuOIE23GDNzjWuZquvFlgA8xmpunjU=
github.com/ChrisTrenkamp/goxpath v0.0.0-20210404020558-97928f7e12b6 h1:w0E0fgc1YafGEh5cROhlROMWXiNoZqApk2PDN0M1+Ns=
github.com/ChrisTrenkamp/goxpath v0.0.0-20210404020558-97928f7e12b6/go.mod h1:nuWgzSkT5PnyOd+272uUmV0dnAnAn42Mk7PiQC5VzN4=
github.com/Microsoft/go-winio v0.6.2 h1:F2VQgta7ecxGYO8k3ZZz3RS8fVIXVxONVUPlNERoyfY=
github.com/Microsoft/go-winio v0.6.2/go.mod h1:yd8OoFMLzJbo9gZq8j5qaps8bJ9aShtEA8Ipt1oGCvU=
github.com/bodgit/ntlmssp v0.0.0-20240506230425-31973bb52d9b h1:baFN6AnR0SeC194X2D292IUZcHDs4JjStpqtE70fjXE=
github.com/bodgit/ntlmssp v0.0.0-20240506230425-31973bb52d9b/go.mod h1:Ram6ngyPDmP+0t6+4T2rymv0w0BS9N8Ch5vvUJccw5o=
github.com/bodgit/windows v1.0.1 h1:tF7K6KOluPYygXa3Z2594zxlkbKPAOvqr97etrGNIz4=
github.com/bodgit/windows v1.0.1/go.mod h1:a6JLwrB4KrTR5hBpp8FI9/9W9jJfeQ2h4XDXU74ZCdM=
github.com/cenkalti/backoff/v4 v4.2.1 h1:y4OZtCnogmCPw98Zjyt5a6+QwPLGkiQsYW5oUqylYbM=
github.com/cenkalti/backoff/v4 v4.2.1/go.mod h1:Y3VNntkOUPxTVeUxJ/G5vcM//AlwfmyYozVcomhLiZE=
github.com/containerd/containerd v1.7.18 h1:jqjZTQNfXGoEaZdW1WwPU0RqSn1Bm2Ay/KJPUuO8nao=
@@ -39,6 +47,8 @@ github.com/go-logr/stdr v1.2.2 h1:hSWxHoqTgW2S2qGc0LTAI563KZ5YKYRhT3MFKZMbjag=
github.com/go-logr/stdr v1.2.2/go.mod h1:mMo/vtBO5dYbehREoey6XUKy/eSumjCCveDpRre4VKE=
github.com/go-ole/go-ole v1.2.6 h1:/Fpf6oFPoeFik9ty7siob0G6Ke8QvQEuVcuChpwXzpY=
github.com/go-ole/go-ole v1.2.6/go.mod h1:pprOEPIfldk/42T2oK7lQ4v4JSDwmV0As9GaiUsvbm0=
github.com/gofrs/uuid v4.4.0+incompatible h1:3qXRTX8/NbyulANqlc0lchS1gqAVxRgsuW1YrTJupqA=
github.com/gofrs/uuid v4.4.0+incompatible/go.mod h1:b2aQJv3Z4Fp6yNu3cdSllBxTCLRxnplIgP/c0N/04lM=
github.com/gogo/protobuf v1.3.2 h1:Ov1cvc58UF3b5XjBnZv7+opcTcQFZebYjWzi34vdm4Q=
github.com/gogo/protobuf v1.3.2/go.mod h1:P1XiOD3dCwIKUDQYPy72D8LYyHL2YPYrpS2s69NZV8Q=
github.com/golang-jwt/jwt/v5 v5.3.0 h1:pv4AsKCKKZuqlgs5sUmn4x8UlGa0kEVt/puTpKx9vvo=
@@ -52,8 +62,27 @@ github.com/google/jsonschema-go v0.4.2 h1:tmrUohrwoLZZS/P3x7ex0WAVknEkBZM46iALbc
github.com/google/jsonschema-go v0.4.2/go.mod h1:r5quNTdLOYEz95Ru18zA0ydNbBuYoo9tgaYcxEYhJVE=
github.com/google/uuid v1.6.0 h1:NIvaJDMOsjHA8n1jAhLSgzrAzy1Hgr+hNrb57e+94F0=
github.com/google/uuid v1.6.0/go.mod h1:TIyPZe4MgqvfeYDBFedMoGGpEw/LqOeaOT+nhxU+yHo=
github.com/gorilla/securecookie v1.1.1/go.mod h1:ra0sb63/xPlUeL+yeDciTfxMRAA+MP+HVt/4epWDjd4=
github.com/gorilla/sessions v1.2.1/go.mod h1:dk2InVEVJ0sfLlnXv9EAgkf6ecYs/i80K/zI+bUmuGM=
github.com/grpc-ecosystem/grpc-gateway/v2 v2.16.0 h1:YBftPWNWd4WwGqtY2yeZL2ef8rHAxPBD8KFhJpmcqms=
github.com/grpc-ecosystem/grpc-gateway/v2 v2.16.0/go.mod h1:YN5jB8ie0yfIUg6VvR9Kz84aCaG7AsGZnLjhHbUqwPg=
github.com/hashicorp/go-cleanhttp v0.5.2 h1:035FKYIWjmULyFRBKPs8TBQoi0x6d9G4xc9neXJWAZQ=
github.com/hashicorp/go-cleanhttp v0.5.2/go.mod h1:kO/YDlP8L1346E6Sodw+PrpBSV4/SoxCXGY6BqNFT48=
github.com/hashicorp/go-uuid v1.0.2/go.mod h1:6SBZvOh/SIDV7/2o3Jml5SYk/TvGqwFJ/bN7x4byOro=
github.com/hashicorp/go-uuid v1.0.3 h1:2gKiV6YVmrJ1i2CKKa9obLvRieoRGviZFL26PcT/Co8=
github.com/hashicorp/go-uuid v1.0.3/go.mod h1:6SBZvOh/SIDV7/2o3Jml5SYk/TvGqwFJ/bN7x4byOro=
github.com/jcmturner/aescts/v2 v2.0.0 h1:9YKLH6ey7H4eDBXW8khjYslgyqG2xZikXP0EQFKrle8=
github.com/jcmturner/aescts/v2 v2.0.0/go.mod h1:AiaICIRyfYg35RUkr8yESTqvSy7csK90qZ5xfvvsoNs=
github.com/jcmturner/dnsutils/v2 v2.0.0 h1:lltnkeZGL0wILNvrNiVCR6Ro5PGU/SeBvVO/8c/iPbo=
github.com/jcmturner/dnsutils/v2 v2.0.0/go.mod h1:b0TnjGOvI/n42bZa+hmXL+kFJZsFT7G4t3HTlQ184QM=
github.com/jcmturner/gofork v1.7.6 h1:QH0l3hzAU1tfT3rZCnW5zXl+orbkNMMRGJfdJjHVETg=
github.com/jcmturner/gofork v1.7.6/go.mod h1:1622LH6i/EZqLloHfE7IeZ0uEJwMSUyQ/nDd82IeqRo=
github.com/jcmturner/goidentity/v6 v6.0.1 h1:VKnZd2oEIMorCTsFBnJWbExfNN7yZr3EhJAxwOkZg6o=
github.com/jcmturner/goidentity/v6 v6.0.1/go.mod h1:X1YW3bgtvwAXju7V3LCIMpY0Gbxyjn/mY9zx4tFonSg=
github.com/jcmturner/gokrb5/v8 v8.4.4 h1:x1Sv4HaTpepFkXbt2IkL29DXRf8sOfZXo8eRKh687T8=
github.com/jcmturner/gokrb5/v8 v8.4.4/go.mod h1:1btQEpgT6k+unzCwX1KdWMEwPPkkgBtP+F6aCACiMrs=
github.com/jcmturner/rpc/v2 v2.0.3 h1:7FXXj8Ti1IaVFpSAziCZWNzbNuZmnvw/i6CqLNdWfZY=
github.com/jcmturner/rpc/v2 v2.0.3/go.mod h1:VUJYCIDm3PVOEHw8sgt091/20OJjskO/YJki3ELg/Hc=
github.com/kisielk/errcheck v1.5.0/go.mod h1:pFxgyoBC7bSaBwPgfKdkLd5X25qrDl4LWUI2bnpBCr8=
github.com/kisielk/gotool v1.0.0/go.mod h1:XhKaO+MFFWcvkIS/tQcRk01m1F5IRFswLeQ+oQHNcck=
github.com/klauspost/compress v1.17.4 h1:Ej5ixsIri7BrIjBkRZLTo6ghwrEtHFk7ijlczPW4fZ4=
@@ -68,6 +97,10 @@ github.com/lufia/plan9stats v0.0.0-20211012122336-39d0f177ccd0 h1:6E+4a0GO5zZEnZ
github.com/lufia/plan9stats v0.0.0-20211012122336-39d0f177ccd0/go.mod h1:zJYVVT2jmtg6P3p1VtQj7WsuWi/y4VnjVBn7F8KPB3I=
github.com/magiconair/properties v1.8.7 h1:IeQXZAiQcpL9mgcAe1Nu6cX9LLw6ExEHKjN0VQdvPDY=
github.com/magiconair/properties v1.8.7/go.mod h1:Dhd985XPs7jluiymwWYZ0G4Z61jb3vdS329zhj2hYo0=
github.com/masterzen/simplexml v0.0.0-20190410153822-31eea3082786 h1:2ZKn+w/BJeL43sCxI2jhPLRv73oVVOjEKZjKkflyqxg=
github.com/masterzen/simplexml v0.0.0-20190410153822-31eea3082786/go.mod h1:kCEbxUJlNDEBNbdQMkPSp6yaKcRXVI6f4ddk8Riv4bc=
github.com/masterzen/winrm v0.0.0-20250927112105-5f8e6c707321 h1:AKIJL2PfBX2uie0Mn5pxtG1+zut3hAVMZbRfoXecFzI=
github.com/masterzen/winrm v0.0.0-20250927112105-5f8e6c707321/go.mod h1:JajVhkiG2bYSNYYPYuWG7WZHr42CTjMTcCjfInRNCqc=
github.com/moby/docker-image-spec v1.3.1 h1:jMKff3w6PgbfSa69GfNg+zN/XLhfXJGnEx3Nl2EsFP0=
github.com/moby/docker-image-spec v1.3.1/go.mod h1:eKmb5VW8vQEh/BAr2yvVNvuiJuY6UIocYsFu/DxxRpo=
github.com/moby/patternmatcher v0.6.0 h1:GmP9lR19aU5GqSSFko+5pRqHi+Ohk1O69aFiKkVGiPk=
@@ -111,14 +144,18 @@ github.com/stretchr/objx v0.4.0/go.mod h1:YvHI0jy2hoMjB+UWwv71VJQ9isScKT/TqJzVSS
github.com/stretchr/objx v0.5.0/go.mod h1:Yh+to48EsGEfYuaHDzXPcE3xhTkx73EhmCGUpEOglKo=
github.com/stretchr/objx v0.5.2 h1:xuMeJ0Sdp5ZMRXx/aWO6RZxdr3beISkG5/G/aIRr3pY=
github.com/stretchr/objx v0.5.2/go.mod h1:FRsXN1f5AsAjCGJKqEizvkpNtU+EGNCLh3NxZ/8L+MA=
github.com/stretchr/testify v1.4.0/go.mod h1:j7eGeouHqKxXV5pUuKE4zz7dFj8WfuZ+81PSLYec5m4=
github.com/stretchr/testify v1.7.0/go.mod h1:6Fq8oRcR53rry900zMqJjRRixrwX3KX962/h/Wwjteg=
github.com/stretchr/testify v1.7.1/go.mod h1:6Fq8oRcR53rry900zMqJjRRixrwX3KX962/h/Wwjteg=
github.com/stretchr/testify v1.8.0/go.mod h1:yNjHg4UonilssWZ8iaSj1OCr/vHnekPRkoO+kdMU+MU=
github.com/stretchr/testify v1.8.1/go.mod h1:w2LPCIKwWwSfY2zedu0+kehJoqGctiVI29o6fzry7u4=
github.com/stretchr/testify v1.8.4/go.mod h1:sz/lmYIOXD/1dqDmKjjqLyZ2RngseejIcXlSw2iwfAo=
github.com/stretchr/testify v1.9.0 h1:HtqpIVDClZ4nwg75+f6Lvsy/wHu+3BoSGCbBAcpTsTg=
github.com/stretchr/testify v1.9.0/go.mod h1:r2ic/lqez/lEtzL7wO/rwa5dbSLXVDPFyf8C91i36aY=
github.com/testcontainers/testcontainers-go v0.35.0 h1:uADsZpTKFAtp8SLK+hMwSaa+X+JiERHtd4sQAFmXeMo=
github.com/testcontainers/testcontainers-go v0.35.0/go.mod h1:oEVBj5zrfJTrgjwONs1SsRbnBtH9OKl+IGl3UMcr2B4=
github.com/tidwall/transform v0.0.0-20201103190739-32f242e2dbde h1:AMNpJRc7P+GTwVbl8DkK2I9I8BBUzNiHuH/tlxrpan0=
github.com/tidwall/transform v0.0.0-20201103190739-32f242e2dbde/go.mod h1:MvrEmduDUz4ST5pGZ7CABCnOU5f3ZiOAZzT6b1A6nX8=
github.com/tklauser/go-sysconf v0.3.12 h1:0QaGUFOdQaIVdPgfITYzaTegZvdCjmYO52cSFAEVmqU=
github.com/tklauser/go-sysconf v0.3.12/go.mod h1:Ho14jnntGE1fpdOqQEEaiKRpvIavV0hSfmBq8nJbHYI=
github.com/tklauser/numcpus v0.6.1 h1:ng9scYS7az0Bk4OZLvrNXNSAO2Pxr1XXRAPyjhIx+Fk=
@@ -127,6 +164,7 @@ github.com/yosida95/uritemplate/v3 v3.0.2 h1:Ed3Oyj9yrmi9087+NczuL5BwkIc4wvTb5zI
github.com/yosida95/uritemplate/v3 v3.0.2/go.mod h1:ILOh0sOhIJR3+L/8afwt/kE++YT040gmv5BQTMR2HP4=
github.com/yuin/goldmark v1.1.27/go.mod h1:3hX8gzYuyVAZsxl0MRgGTJEmQBFcNTphYh9decYSb74=
github.com/yuin/goldmark v1.2.1/go.mod h1:3hX8gzYuyVAZsxl0MRgGTJEmQBFcNTphYh9decYSb74=
github.com/yuin/goldmark v1.4.13/go.mod h1:6yULJ656Px+3vBD8DxQVa3kxgyrAnzto9xy5taEt/CY=
github.com/yusufpapurcu/wmi v1.2.3 h1:E1ctvB7uKFMOJw3fdOW32DwGE9I7t++CRUEMKvFoFiw=
github.com/yusufpapurcu/wmi v1.2.3/go.mod h1:SBZ9tNy3G9/m5Oi98Zks0QjeHVDvuK0qfxQmPyzfmi0=
go.opentelemetry.io/contrib/instrumentation/net/http/otelhttp v0.49.0 h1:jq9TW8u3so/bN+JPT166wjOI6/vQPF6Xe7nMNIltagk=
@@ -148,14 +186,22 @@ go.opentelemetry.io/proto/otlp v1.0.0/go.mod h1:Sy6pihPLfYHkr3NkUbEhGHFhINUSI/v8
golang.org/x/crypto v0.0.0-20190308221718-c2843e01d9a2/go.mod h1:djNgcEr1/C05ACkg1iLfiJU5Ep61QUkGW8qpdssI0+w=
golang.org/x/crypto v0.0.0-20191011191535-87dc89f01550/go.mod h1:yigFU9vqHzYiE8UmvKecakEJjdnWj3jj499lnFckfCI=
golang.org/x/crypto v0.0.0-20200622213623-75b288015ac9/go.mod h1:LzIPMQfyMNhhGPhUkYOs5KpL4U8rLKemX1yGLhDgUto=
golang.org/x/crypto v0.0.0-20210921155107-089bfa567519/go.mod h1:GvvjBRRGRdwPK5ydBHafDWAxML/pGHZbMvKqRZ5+Abc=
golang.org/x/crypto v0.6.0/go.mod h1:OFC/31mSvZgRz0V1QTNCzfAI1aIRzbiufJtkMIlEp58=
golang.org/x/crypto v0.31.0 h1:ihbySMvVjLAeSH1IbfcRTkD/iNscyz8rGzjF/E5hV6U=
golang.org/x/crypto v0.31.0/go.mod h1:kDsLvtWBEx7MV9tJOj9bnXsPbxwJQ6csT/x4KIN4Ssk=
golang.org/x/mod v0.2.0/go.mod h1:s0Qsj1ACt9ePp/hMypM3fl4fZqREWJwdYDEqhRiZZUA=
golang.org/x/mod v0.3.0/go.mod h1:s0Qsj1ACt9ePp/hMypM3fl4fZqREWJwdYDEqhRiZZUA=
golang.org/x/mod v0.6.0-dev.0.20220419223038-86c51ed26bb4/go.mod h1:jJ57K6gSWd91VN4djpZkiMVwK6gcyfeH4XE8wZrZaV4=
golang.org/x/net v0.0.0-20190404232315-eb5bcb51f2a3/go.mod h1:t9HGtf8HONx5eT2rtn7q6eTqICYqUVnKs3thJo3Qplg=
golang.org/x/net v0.0.0-20190620200207-3b0461eec859/go.mod h1:z5CRVTTTmAJ677TzLLGU+0bjPO0LkuOLi4/5GtJWs/s=
golang.org/x/net v0.0.0-20200114155413-6afb5195e5aa/go.mod h1:z5CRVTTTmAJ677TzLLGU+0bjPO0LkuOLi4/5GtJWs/s=
golang.org/x/net v0.0.0-20200226121028-0de0cce0169b/go.mod h1:z5CRVTTTmAJ677TzLLGU+0bjPO0LkuOLi4/5GtJWs/s=
golang.org/x/net v0.0.0-20201021035429-f5854403a974/go.mod h1:sp8m0HH+o8qH0wwXwYZr8TS3Oi6o0r6Gce1SSxlDquU=
golang.org/x/net v0.0.0-20210226172049-e18ecbb05110/go.mod h1:m0MpNAwzfU5UDzcl9v0D8zg8gWTRqZa9RBIspLL5mdg=
golang.org/x/net v0.0.0-20220722155237-a158d28d115b/go.mod h1:XRhObCWvk6IyKnWLug+ECip1KBveYUHfp+8e9klMJ9c=
golang.org/x/net v0.6.0/go.mod h1:2Tu9+aMcznHK/AK1HMvgo6xiTLG5rD5rZLDS+rp2Bjs=
golang.org/x/net v0.7.0/go.mod h1:2Tu9+aMcznHK/AK1HMvgo6xiTLG5rD5rZLDS+rp2Bjs=
golang.org/x/net v0.23.0 h1:7EYJ93RZ9vYSZAIb2x3lnuvqO5zneoD6IvWjuhfxjTs=
golang.org/x/net v0.23.0/go.mod h1:JKghWKKOSdJwpW2GEx0Ja7fmaKnMsbu+MWVZTokSYmg=
golang.org/x/oauth2 v0.34.0 h1:hqK/t4AKgbqWkdkcAeI8XLmbK+4m4G5YeQRrmiotGlw=
@@ -163,22 +209,33 @@ golang.org/x/oauth2 v0.34.0/go.mod h1:lzm5WQJQwKZ3nwavOZ3IS5Aulzxi68dUSgRHujetwE
golang.org/x/sync v0.0.0-20190423024810-112230192c58/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.0.0-20190911185100-cd5d95a43a6e/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.0.0-20201020160332-67f06af15bc9/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.0.0-20220722155255-886fb9371eb4/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sys v0.0.0-20190215142949-d0b11bdaac8a/go.mod h1:STP8DvDyc/dI5b8T5hshtkjS+E42TnysNCUPdjciGhY=
golang.org/x/sys v0.0.0-20190412213103-97732733099d/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20190916202348-b4ddaad3f8a3/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20200930185726-fdedc70b468f/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20201119102817-f84b799fce68/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20201204225414-ed752295db88/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20210615035016-665e8c7367d1/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20210616094352-59db8d763f22/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20220520151302-bc2c85ada10a/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20220715151400-c0bba94af5f8/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20220722155257-8c9f86f7a55f/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.5.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.8.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.11.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.15.0/go.mod h1:/VUhepiaJMQUp4+oa/7Zr1D23ma6VTLIYjOOTFZPUcA=
golang.org/x/sys v0.40.0 h1:DBZZqJ2Rkml6QMQsZywtnjnnGvHza6BTfYFWY9kjEWQ=
golang.org/x/sys v0.40.0/go.mod h1:OgkHotnGiDImocRcuBABYBEXf8A9a87e/uXjp9XT3ks=
golang.org/x/term v0.0.0-20201126162022-7de9c90e9dd1/go.mod h1:bj7SfCRtBDWHUb9snDiAeCFNEtKQo2Wmx5Cou7ajbmo=
golang.org/x/term v0.0.0-20210927222741-03fcf44c2211/go.mod h1:jbD1KX2456YbFQfuXm/mYQcufACuNUgVhRMnK/tPxf8=
golang.org/x/term v0.5.0/go.mod h1:jMB1sMXY+tzblOD4FWmEbocvup2/aLOaQEp7JmGp78k=
golang.org/x/term v0.27.0 h1:WP60Sv1nlK1T6SupCHbXzSaN0b9wUmsPoRS9b61A23Q=
golang.org/x/term v0.27.0/go.mod h1:iMsnZpn0cago0GOrHO2+Y7u7JPn5AylBrcoWkElMTSM=
golang.org/x/text v0.3.0/go.mod h1:NqM8EUOU14njkJ3fqMW+pc6Ldnwhi/IjpwHt7yyuwOQ=
golang.org/x/text v0.3.3/go.mod h1:5Zoc/QRtKVWzQhOtBMvqHzDpF6irO9z98xDceosuGiQ=
golang.org/x/text v0.3.7/go.mod h1:u+2+/6zg+i71rQMx5EYifcz6MCKuco9NR6JIITiCfzQ=
golang.org/x/text v0.7.0/go.mod h1:mrYo+phRRbMaCq/xk9113O4dZlRixOauAjOtrjsXDZ8=
golang.org/x/text v0.21.0 h1:zyQAAkrwaneQ066sspRyJaG9VNi/YJ1NfzcGB3hZ/qo=
golang.org/x/text v0.21.0/go.mod h1:4IBbMaMmOPCJ8SecivzSH54+73PCFmPWxNTLm+vZkEQ=
golang.org/x/time v0.0.0-20220210224613-90d013bbcef8 h1:vVKdlvoWBphwdxWKrFZEuM0kGgGLxUOYcY4U/2Vjg44=
@@ -187,6 +244,7 @@ golang.org/x/tools v0.0.0-20180917221912-90fa682c2a6e/go.mod h1:n7NCudcB/nEzxVGm
golang.org/x/tools v0.0.0-20191119224855-298f0cb1881e/go.mod h1:b+2E5dAYhXwXZwtnZ6UAqBI28+e2cm9otk0dWdXHAEo=
golang.org/x/tools v0.0.0-20200619180055-7c47624df98f/go.mod h1:EkVYQZoAsY45+roYkvgYkIh4xh/qjgUK9TdY2XT94GE=
golang.org/x/tools v0.0.0-20210106214847-113979e3529a/go.mod h1:emZCQorbCU4vsT4fOWvOPXz4eW1wZW4PmDk9uLelYpA=
golang.org/x/tools v0.1.12/go.mod h1:hNGJHUnrk76NpqgfD5Aqm5Crs+Hm0VOH/i9J2+nxYbc=
golang.org/x/tools v0.41.0 h1:a9b8iMweWG+S0OBnlU36rzLp20z1Rp10w+IY2czHTQc=
golang.org/x/tools v0.41.0/go.mod h1:XSY6eDqxVNiYgezAVqqCeihT4j1U2CCsqvH3WhQpnlg=
golang.org/x/xerrors v0.0.0-20190717185122-a985d3407aa7/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0=
@@ -205,6 +263,7 @@ google.golang.org/protobuf v1.33.0/go.mod h1:c6P6GXX6sHbq/GpV6MGZEdwhWPcYBgnhAHh
gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0=
gopkg.in/check.v1 v1.0.0-20201130134442-10cb98267c6c h1:Hei/4ADfdWqJk1ZMxUNpqntNwaWcugrBjAiHlqqRiVk=
gopkg.in/check.v1 v1.0.0-20201130134442-10cb98267c6c/go.mod h1:JHkPIbrfpd72SG/EVd6muEfDQjcINNoR0C8j2r3qZ4Q=
gopkg.in/yaml.v2 v2.2.2/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI=
gopkg.in/yaml.v3 v3.0.0-20200313102051-9f266ea9e77c/go.mod h1:K4uyk7z7BCEPqu6E+C64Yfv1cQ7kz7rIZviUmN+EgEM=
gopkg.in/yaml.v3 v3.0.1 h1:fxVm/GzAzEWqLHuvctI91KS9hhNmmWOoWu0XTYJS7CA=
gopkg.in/yaml.v3 v3.0.1/go.mod h1:K4uyk7z7BCEPqu6E+C64Yfv1cQ7kz7rIZviUmN+EgEM=
internal/api/handler/agents.go
+3 -1
View File
@@ -252,6 +252,7 @@ func (h AgentHandler) AgentCSRSubmit(w http.ResponseWriter, r *http.Request) {
}
if err != nil {
slog.Error("CSR submission failed", "agent_id", agentID, "certificate_id", req.CertificateID, "error", err.Error())
ErrorWithRequestID(w, http.StatusInternalServerError, "Failed to submit CSR", requestID)
return
}
@@ -274,9 +275,10 @@ func (h AgentHandler) AgentCertificatePickup(w http.ResponseWriter, r *http.Requ
requestID := middleware.GetRequestID(r.Context())
// Extract agent ID and certificate ID from path /api/v1/agents/{id}/certificates/{cert_id}
// After TrimPrefix, path is "{id}/certificates/{cert_id}" → split gives [id, "certificates", cert_id]
path := strings.TrimPrefix(r.URL.Path, "/api/v1/agents/")
parts := strings.Split(path, "/")
if len(parts) < 4 || parts[0] == "" || parts[2] == "" {
if len(parts) < 3 || parts[0] == "" || parts[2] == "" {
ErrorWithRequestID(w, http.StatusBadRequest, "Agent ID and Certificate ID are required", requestID)
return
}
internal/api/handler/validation.go
+9
View File
@@ -3,6 +3,7 @@ package handler
import (
"fmt"
"net"
"net/mail"
"strings"
)
@@ -13,6 +14,7 @@ type ValidationError struct {
}
// ValidateCommonName validates a certificate common name.
// Accepts hostnames (TLS), IP addresses, and email addresses (S/MIME).
func ValidateCommonName(cn string) error {
if cn == "" {
return ValidationError{Field: "common_name", Message: "common_name is required"}
@@ -20,6 +22,13 @@ func ValidateCommonName(cn string) error {
if len(cn) > 253 {
return ValidationError{Field: "common_name", Message: "common_name must be 253 characters or fewer"}
}
// If CN contains @, validate as email address (S/MIME certificates)
if strings.Contains(cn, "@") {
if _, err := mail.ParseAddress(cn); err != nil {
return ValidationError{Field: "common_name", Message: fmt.Sprintf("invalid email format for S/MIME common name: %v", err)}
}
return nil
}
// Basic hostname validation: allow alphanumeric, dots, hyphens
if err := isValidHostname(cn); err != nil {
return ValidationError{Field: "common_name", Message: fmt.Sprintf("invalid hostname format: %v", err)}
internal/config/config.go
+89
View File
@@ -27,6 +27,8 @@ type Config struct {
ACME ACMEConfig
Vault VaultConfig
DigiCert DigiCertConfig
Sectigo SectigoConfig
GoogleCAS GoogleCASConfig
Digest DigestConfig
}
@@ -194,6 +196,71 @@ type DigiCertConfig struct {
BaseURL string
}
// SectigoConfig contains Sectigo Certificate Manager issuer connector configuration.
type SectigoConfig struct {
// CustomerURI is the Sectigo customer URI (organization identifier).
// Required for Sectigo integration.
// Setting: CERTCTL_SECTIGO_CUSTOMER_URI environment variable.
CustomerURI string
// Login is the Sectigo API account login.
// Required for Sectigo integration.
// Setting: CERTCTL_SECTIGO_LOGIN environment variable.
Login string
// Password is the Sectigo API account password or API key.
// Required for Sectigo integration.
// Setting: CERTCTL_SECTIGO_PASSWORD environment variable.
Password string
// OrgID is the Sectigo organization ID for certificate enrollments.
// Required for Sectigo integration.
// Setting: CERTCTL_SECTIGO_ORG_ID environment variable.
OrgID int
// CertType is the Sectigo certificate type ID (from GET /ssl/v1/types).
// Required for enrollment. Set via CERTCTL_SECTIGO_CERT_TYPE environment variable.
CertType int
// Term is the certificate validity in days (e.g., 365, 730).
// Default: 365.
// Setting: CERTCTL_SECTIGO_TERM environment variable.
Term int
// BaseURL is the Sectigo SCM API base URL.
// Default: "https://cert-manager.com/api".
// Setting: CERTCTL_SECTIGO_BASE_URL environment variable.
BaseURL string
}
// GoogleCASConfig contains Google Cloud Certificate Authority Service configuration.
type GoogleCASConfig struct {
// Project is the GCP project ID.
// Required for Google CAS integration.
// Setting: CERTCTL_GOOGLE_CAS_PROJECT environment variable.
Project string
// Location is the GCP region (e.g., "us-central1").
// Required for Google CAS integration.
// Setting: CERTCTL_GOOGLE_CAS_LOCATION environment variable.
Location string
// CAPool is the Certificate Authority pool name.
// Required for Google CAS integration.
// Setting: CERTCTL_GOOGLE_CAS_CA_POOL environment variable.
CAPool string
// Credentials is the path to the service account JSON credentials file.
// Required for Google CAS integration.
// Setting: CERTCTL_GOOGLE_CAS_CREDENTIALS environment variable.
Credentials string
// TTL is the default certificate time-to-live.
// Default: "8760h" (1 year).
// Setting: CERTCTL_GOOGLE_CAS_TTL environment variable.
TTL string
}
// DigestConfig controls the scheduled certificate digest email feature.
type DigestConfig struct {
// Enabled controls whether periodic digest emails are generated and sent.
@@ -256,6 +323,11 @@ type ACMEConfig struct {
// Default: false. Requires a CA that supports ARI (e.g., Let's Encrypt).
// Setting: CERTCTL_ACME_ARI_ENABLED environment variable.
ARIEnabled bool
// Insecure skips TLS certificate verification when connecting to the ACME directory.
// Only use for testing with self-signed ACME servers like Pebble. Never in production.
// Setting: CERTCTL_ACME_INSECURE environment variable.
Insecure bool
}
// OpenSSLConfig contains OpenSSL/Custom CA issuer connector configuration.
@@ -495,6 +567,22 @@ func Load() (*Config, error) {
ProductType: getEnv("CERTCTL_DIGICERT_PRODUCT_TYPE", "ssl_basic"),
BaseURL: getEnv("CERTCTL_DIGICERT_BASE_URL", "https://www.digicert.com/services/v2"),
},
Sectigo: SectigoConfig{
CustomerURI: getEnv("CERTCTL_SECTIGO_CUSTOMER_URI", ""),
Login: getEnv("CERTCTL_SECTIGO_LOGIN", ""),
Password: getEnv("CERTCTL_SECTIGO_PASSWORD", ""),
OrgID: getEnvInt("CERTCTL_SECTIGO_ORG_ID", 0),
CertType: getEnvInt("CERTCTL_SECTIGO_CERT_TYPE", 0),
Term: getEnvInt("CERTCTL_SECTIGO_TERM", 365),
BaseURL: getEnv("CERTCTL_SECTIGO_BASE_URL", "https://cert-manager.com/api"),
},
GoogleCAS: GoogleCASConfig{
Project: getEnv("CERTCTL_GOOGLE_CAS_PROJECT", ""),
Location: getEnv("CERTCTL_GOOGLE_CAS_LOCATION", ""),
CAPool: getEnv("CERTCTL_GOOGLE_CAS_CA_POOL", ""),
Credentials: getEnv("CERTCTL_GOOGLE_CAS_CREDENTIALS", ""),
TTL: getEnv("CERTCTL_GOOGLE_CAS_TTL", "8760h"),
},
ACME: ACMEConfig{
DirectoryURL: getEnv("CERTCTL_ACME_DIRECTORY_URL", ""),
Email: getEnv("CERTCTL_ACME_EMAIL", ""),
@@ -503,6 +591,7 @@ func Load() (*Config, error) {
DNSCleanUpScript: getEnv("CERTCTL_ACME_DNS_CLEANUP_SCRIPT", ""),
DNSPersistIssuerDomain: getEnv("CERTCTL_ACME_DNS_PERSIST_ISSUER_DOMAIN", ""),
ARIEnabled: getEnvBool("CERTCTL_ACME_ARI_ENABLED", false),
Insecure: getEnvBool("CERTCTL_ACME_INSECURE", false),
},
Digest: DigestConfig{
Enabled: getEnvBool("CERTCTL_DIGEST_ENABLED", false),
internal/connector/issuer/acme/acme.go
+74 -6
View File
@@ -5,6 +5,7 @@ import (
"crypto/ecdsa"
"crypto/elliptic"
"crypto/rand"
"crypto/tls"
"crypto/x509"
"encoding/base64"
"encoding/json"
@@ -58,6 +59,10 @@ type Config struct {
// ARIEnabled enables ACME Renewal Information (RFC 9702) support per CERTCTL_ACME_ARI_ENABLED.
// When enabled, the connector queries the CA's ARI endpoint to get CA-directed renewal timing.
ARIEnabled bool `json:"ari_enabled,omitempty"`
// Insecure skips TLS certificate verification when connecting to the ACME directory.
// Only use for testing with self-signed ACME servers like Pebble.
Insecure bool `json:"insecure,omitempty"`
}
// Connector implements the issuer.Connector interface for ACME-compatible CAs
@@ -114,6 +119,18 @@ func New(config *Config, logger *slog.Logger) *Connector {
return c
}
// httpClient returns an HTTP client configured for the ACME connector.
// When Insecure is true (e.g., for Pebble test servers), TLS verification is skipped.
func (c *Connector) httpClient() *http.Client {
client := &http.Client{Timeout: 30 * time.Second}
if c.config != nil && c.config.Insecure {
client.Transport = &http.Transport{
TLSClientConfig: &tls.Config{InsecureSkipVerify: true}, //nolint:gosec // Intentional for test ACME servers (Pebble)
}
}
return client
}
// ValidateConfig checks that the ACME directory URL is reachable and valid.
func (c *Connector) ValidateConfig(ctx context.Context, rawConfig json.RawMessage) error {
var cfg Config
@@ -129,10 +146,16 @@ func (c *Connector) ValidateConfig(ctx context.Context, rawConfig json.RawMessag
return fmt.Errorf("ACME email is required")
}
c.logger.Info("validating ACME configuration", "directory_url", cfg.DirectoryURL)
c.logger.Info("validating ACME configuration", "directory_url", cfg.DirectoryURL, "insecure", cfg.Insecure)
// Apply config so httpClient() can use it for the directory probe.
// This persists across the function — if validation fails early, the config
// will still be set, but that's fine since a failed ValidateConfig means
// the connector won't be used.
c.config = &cfg
// Verify that the directory URL is reachable
httpClient := &http.Client{Timeout: 10 * time.Second}
httpClient := c.httpClient()
req, err := http.NewRequestWithContext(ctx, http.MethodGet, cfg.DirectoryURL, nil)
if err != nil {
return fmt.Errorf("failed to create request: %w", err)
@@ -203,6 +226,7 @@ func (c *Connector) ensureClient(ctx context.Context) error {
c.client = &acme.Client{
Key: key,
DirectoryURL: c.config.DirectoryURL,
HTTPClient: c.httpClient(),
}
// Register or retrieve the ACME account
@@ -338,6 +362,12 @@ func (c *Connector) IssueCertificate(ctx context.Context, request issuer.Issuanc
}
c.logger.Info("ACME order created", "order_url", order.URI, "status", order.Status)
// Save FinalizeURL and URI before WaitOrder — WaitOrder returns a new Order
// object that may have empty FinalizeURL and URI fields (Go's crypto/acme
// WaitOrder doesn't populate Order.URI on the returned struct).
finalizeURL := order.FinalizeURL
orderURI := order.URI
// Step 2: Solve authorizations (HTTP-01 challenges)
if order.Status == acme.StatusPending {
if err := c.solveAuthorizations(ctx, order.AuthzURLs); err != nil {
@@ -345,10 +375,18 @@ func (c *Connector) IssueCertificate(ctx context.Context, request issuer.Issuanc
}
// Wait for the order to be ready
order, err = c.client.WaitOrder(ctx, order.URI)
order, err = c.client.WaitOrder(ctx, orderURI)
if err != nil {
return nil, fmt.Errorf("order failed after challenge: %w", err)
}
// Update finalizeURL from the waited order if it has one
if order.FinalizeURL != "" {
finalizeURL = order.FinalizeURL
}
// Preserve orderURI — WaitOrder doesn't populate Order.URI
if order.URI != "" {
orderURI = order.URI
}
}
if order.Status != acme.StatusReady {
@@ -361,9 +399,39 @@ func (c *Connector) IssueCertificate(ctx context.Context, request issuer.Issuanc
return nil, fmt.Errorf("failed to parse CSR: %w", err)
}
derChain, _, err := c.client.CreateOrderCert(ctx, order.FinalizeURL, csrDER, true)
if finalizeURL == "" {
return nil, fmt.Errorf("ACME order has no finalize URL (order URI: %s, status: %s)", order.URI, order.Status)
}
// Step 3b: Finalize the order and fetch the certificate.
// CreateOrderCert POSTs the CSR to the finalize URL and attempts to retrieve
// the certificate. Some ACME servers (notably Pebble) return the order object
// per RFC 8555 rather than redirecting to the cert, which can cause
// CreateOrderCert's internal cert URL resolution to fail. In that case, we
// fall back to WaitOrder (to get the CertURL) + FetchCert.
derChain, _, err := c.client.CreateOrderCert(ctx, finalizeURL, csrDER, true)
if err != nil {
return nil, fmt.Errorf("failed to finalize order: %w", err)
c.logger.Warn("CreateOrderCert failed, attempting manual certificate fetch",
"error", err, "order_uri", orderURI)
// The finalize POST likely succeeded (the CA issued the cert) but cert
// retrieval failed. WaitOrder returns the order in "valid" state with
// CertURL populated.
validOrder, waitErr := c.client.WaitOrder(ctx, orderURI)
if waitErr != nil {
return nil, fmt.Errorf("failed to finalize order: %w (wait fallback: %v)", err, waitErr)
}
if validOrder.CertURL == "" {
return nil, fmt.Errorf("order finalized but no certificate URL returned (original error: %w)", err)
}
c.logger.Info("fetching certificate via fallback", "cert_url", validOrder.CertURL)
fetchedChain, fetchErr := c.client.FetchCert(ctx, validOrder.CertURL, true)
if fetchErr != nil {
return nil, fmt.Errorf("failed to fetch certificate: %w (original finalize error: %v)", fetchErr, err)
}
derChain = fetchedChain
}
if len(derChain) == 0 {
@@ -387,7 +455,7 @@ func (c *Connector) IssueCertificate(ctx context.Context, request issuer.Issuanc
Serial: serial,
NotBefore: notBefore,
NotAfter: notAfter,
OrderID: order.URI,
OrderID: orderURI,
}, nil
}
internal/connector/issuer/googlecas/googlecas.go
+619
View File
@@ -0,0 +1,619 @@
// Package googlecas implements the issuer.Connector interface for
// Google Cloud Certificate Authority Service (CAS).
//
// Google CAS is a managed private CA service on GCP. This connector
// uses the CAS REST API (privateca.googleapis.com/v1) with OAuth2
// service account authentication. Certificates are issued synchronously.
//
// Authentication: OAuth2 service account via JWT → access token exchange.
// No Google SDK dependency — uses stdlib crypto/rsa + net/http.
//
// API endpoints used:
//
// POST /v1/{parent}/certificates - Issue certificate
// POST /v1/{name}:revoke - Revoke certificate
// POST /v1/{caPool}:fetchCaCerts - Get CA certificate chain
package googlecas
import (
"bytes"
"context"
"crypto"
"crypto/rand"
"crypto/rsa"
"crypto/sha256"
"crypto/x509"
"encoding/base64"
"encoding/json"
"encoding/pem"
"fmt"
"io"
"log/slog"
"math/big"
"net/http"
"net/url"
"os"
"strings"
"sync"
"time"
"github.com/shankar0123/certctl/internal/connector/issuer"
)
// Config represents the Google CAS issuer connector configuration.
type Config struct {
// Project is the GCP project ID.
// Required. Set via CERTCTL_GOOGLE_CAS_PROJECT environment variable.
Project string `json:"project"`
// Location is the GCP region (e.g., "us-central1").
// Required. Set via CERTCTL_GOOGLE_CAS_LOCATION environment variable.
Location string `json:"location"`
// CAPool is the Certificate Authority pool name.
// Required. Set via CERTCTL_GOOGLE_CAS_CA_POOL environment variable.
CAPool string `json:"ca_pool"`
// Credentials is the path to the service account JSON credentials file.
// Required. Set via CERTCTL_GOOGLE_CAS_CREDENTIALS environment variable.
Credentials string `json:"credentials"`
// TTL is the requested certificate TTL (e.g., "8760h" for 1 year).
// Default: "8760h". Set via CERTCTL_GOOGLE_CAS_TTL environment variable.
TTL string `json:"ttl"`
// BaseURL overrides the Google CAS API base URL (for testing).
// Default: "https://privateca.googleapis.com/v1".
BaseURL string `json:"base_url,omitempty"`
// TokenURL overrides the OAuth2 token endpoint (for testing).
// Default: "https://oauth2.googleapis.com/token".
TokenURL string `json:"token_url,omitempty"`
}
// serviceAccountKey represents the relevant fields from a Google service account JSON file.
type serviceAccountKey struct {
Type string `json:"type"`
ProjectID string `json:"project_id"`
PrivateKey string `json:"private_key"`
ClientEmail string `json:"client_email"`
TokenURI string `json:"token_uri"`
}
// cachedToken holds an OAuth2 access token and its expiry.
type cachedToken struct {
token string
expiresAt time.Time
}
// Connector implements the issuer.Connector interface for Google CAS.
type Connector struct {
config *Config
logger *slog.Logger
httpClient *http.Client
// OAuth2 token caching
mu sync.Mutex
tokenCache *cachedToken
saKey *serviceAccountKey
rsaKey *rsa.PrivateKey
}
// New creates a new Google CAS connector with the given configuration and logger.
func New(config *Config, logger *slog.Logger) *Connector {
if config != nil {
if config.TTL == "" {
config.TTL = "8760h"
}
if config.BaseURL == "" {
config.BaseURL = "https://privateca.googleapis.com/v1"
}
if config.TokenURL == "" {
config.TokenURL = "https://oauth2.googleapis.com/token"
}
}
return &Connector{
config: config,
logger: logger,
httpClient: &http.Client{
Timeout: 30 * time.Second,
},
}
}
// parentPath returns the CAS resource parent path.
func (c *Connector) parentPath() string {
return fmt.Sprintf("projects/%s/locations/%s/caPools/%s",
c.config.Project, c.config.Location, c.config.CAPool)
}
// certificateCreateResponse represents the Google CAS create certificate response.
type certificateCreateResponse struct {
Name string `json:"name"`
PEMCertificate string `json:"pemCertificate"`
PEMCertificateChain []string `json:"pemCertificateChain"`
}
// fetchCACertsResponse represents the Google CAS fetchCaCerts response.
type fetchCACertsResponse struct {
CACerts []caCertChain `json:"caCerts"`
}
type caCertChain struct {
Certificates []string `json:"certificates"`
}
// googleAPIError represents a Google API error response.
type googleAPIError struct {
Error struct {
Code int `json:"code"`
Message string `json:"message"`
Status string `json:"status"`
} `json:"error"`
}
// ValidateConfig checks that the Google CAS configuration is valid.
// Verifies required fields and that the credentials file is parseable.
func (c *Connector) ValidateConfig(ctx context.Context, rawConfig json.RawMessage) error {
var cfg Config
if err := json.Unmarshal(rawConfig, &cfg); err != nil {
return fmt.Errorf("invalid Google CAS config: %w", err)
}
if cfg.Project == "" {
return fmt.Errorf("Google CAS project is required")
}
if cfg.Location == "" {
return fmt.Errorf("Google CAS location is required")
}
if cfg.CAPool == "" {
return fmt.Errorf("Google CAS CA pool is required")
}
if cfg.Credentials == "" {
return fmt.Errorf("Google CAS credentials path is required")
}
// Verify credentials file exists and is valid
saKey, _, err := loadServiceAccountKey(cfg.Credentials)
if err != nil {
return fmt.Errorf("Google CAS credentials invalid: %w", err)
}
if saKey.ClientEmail == "" {
return fmt.Errorf("Google CAS credentials missing client_email")
}
if saKey.PrivateKey == "" {
return fmt.Errorf("Google CAS credentials missing private_key")
}
if cfg.TTL == "" {
cfg.TTL = "8760h"
}
if cfg.BaseURL == "" {
cfg.BaseURL = "https://privateca.googleapis.com/v1"
}
if cfg.TokenURL == "" {
cfg.TokenURL = "https://oauth2.googleapis.com/token"
}
c.config = &cfg
c.logger.Info("Google CAS configuration validated",
"project", cfg.Project,
"location", cfg.Location,
"ca_pool", cfg.CAPool)
return nil
}
// loadServiceAccountKey reads and parses a service account JSON file.
func loadServiceAccountKey(path string) (*serviceAccountKey, *rsa.PrivateKey, error) {
data, err := os.ReadFile(path)
if err != nil {
return nil, nil, fmt.Errorf("cannot read credentials file: %w", err)
}
var saKey serviceAccountKey
if err := json.Unmarshal(data, &saKey); err != nil {
return nil, nil, fmt.Errorf("cannot parse credentials JSON: %w", err)
}
if saKey.PrivateKey == "" {
return &saKey, nil, nil
}
// Parse the RSA private key
block, _ := pem.Decode([]byte(saKey.PrivateKey))
if block == nil {
return nil, nil, fmt.Errorf("cannot decode private key PEM")
}
// Try PKCS#8 first, then PKCS#1
var rsaKey *rsa.PrivateKey
if key, err := x509.ParsePKCS8PrivateKey(block.Bytes); err == nil {
var ok bool
rsaKey, ok = key.(*rsa.PrivateKey)
if !ok {
return nil, nil, fmt.Errorf("private key is not RSA")
}
} else if key, err := x509.ParsePKCS1PrivateKey(block.Bytes); err == nil {
rsaKey = key
} else {
return nil, nil, fmt.Errorf("cannot parse private key: not PKCS#8 or PKCS#1")
}
return &saKey, rsaKey, nil
}
// getAccessToken returns a valid OAuth2 access token, refreshing if needed.
func (c *Connector) getAccessToken(ctx context.Context) (string, error) {
c.mu.Lock()
defer c.mu.Unlock()
// Return cached token if still valid (5 min buffer)
if c.tokenCache != nil && time.Now().Add(5*time.Minute).Before(c.tokenCache.expiresAt) {
return c.tokenCache.token, nil
}
// Load credentials if not cached
if c.saKey == nil || c.rsaKey == nil {
saKey, rsaKey, err := loadServiceAccountKey(c.config.Credentials)
if err != nil {
return "", fmt.Errorf("failed to load credentials: %w", err)
}
c.saKey = saKey
c.rsaKey = rsaKey
}
// Build JWT
now := time.Now()
header := base64URLEncode([]byte(`{"alg":"RS256","typ":"JWT"}`))
claims, err := json.Marshal(map[string]interface{}{
"iss": c.saKey.ClientEmail,
"scope": "https://www.googleapis.com/auth/cloud-platform",
"aud": c.config.TokenURL,
"iat": now.Unix(),
"exp": now.Add(time.Hour).Unix(),
})
if err != nil {
return "", fmt.Errorf("failed to marshal JWT claims: %w", err)
}
payload := base64URLEncode(claims)
// Sign
signingInput := header + "." + payload
hash := sha256.Sum256([]byte(signingInput))
sig, err := rsa.SignPKCS1v15(rand.Reader, c.rsaKey, crypto.SHA256, hash[:])
if err != nil {
return "", fmt.Errorf("failed to sign JWT: %w", err)
}
jwt := signingInput + "." + base64URLEncode(sig)
// Exchange JWT for access token
form := url.Values{
"grant_type": {"urn:ietf:params:oauth:grant-type:jwt-bearer"},
"assertion": {jwt},
}
req, err := http.NewRequestWithContext(ctx, http.MethodPost, c.config.TokenURL,
strings.NewReader(form.Encode()))
if err != nil {
return "", fmt.Errorf("failed to create token request: %w", err)
}
req.Header.Set("Content-Type", "application/x-www-form-urlencoded")
resp, err := c.httpClient.Do(req)
if err != nil {
return "", fmt.Errorf("token exchange failed: %w", err)
}
defer resp.Body.Close()
body, err := io.ReadAll(resp.Body)
if err != nil {
return "", fmt.Errorf("failed to read token response: %w", err)
}
if resp.StatusCode != http.StatusOK {
return "", fmt.Errorf("token exchange returned status %d: %s", resp.StatusCode, string(body))
}
var tokenResp struct {
AccessToken string `json:"access_token"`
ExpiresIn int `json:"expires_in"`
TokenType string `json:"token_type"`
}
if err := json.Unmarshal(body, &tokenResp); err != nil {
return "", fmt.Errorf("failed to parse token response: %w", err)
}
if tokenResp.AccessToken == "" {
return "", fmt.Errorf("empty access token in response")
}
// Cache token
c.tokenCache = &cachedToken{
token: tokenResp.AccessToken,
expiresAt: now.Add(time.Duration(tokenResp.ExpiresIn) * time.Second),
}
return tokenResp.AccessToken, nil
}
// doAuthenticatedRequest performs an HTTP request with OAuth2 bearer token.
func (c *Connector) doAuthenticatedRequest(ctx context.Context, method, urlStr string, body interface{}) ([]byte, int, error) {
token, err := c.getAccessToken(ctx)
if err != nil {
return nil, 0, fmt.Errorf("failed to get access token: %w", err)
}
var bodyReader io.Reader
if body != nil {
bodyBytes, err := json.Marshal(body)
if err != nil {
return nil, 0, fmt.Errorf("failed to marshal request body: %w", err)
}
bodyReader = bytes.NewReader(bodyBytes)
}
req, err := http.NewRequestWithContext(ctx, method, urlStr, bodyReader)
if err != nil {
return nil, 0, fmt.Errorf("failed to create request: %w", err)
}
req.Header.Set("Authorization", "Bearer "+token)
if body != nil {
req.Header.Set("Content-Type", "application/json")
}
resp, err := c.httpClient.Do(req)
if err != nil {
return nil, 0, fmt.Errorf("request failed: %w", err)
}
defer resp.Body.Close()
respBody, err := io.ReadAll(resp.Body)
if err != nil {
return nil, resp.StatusCode, fmt.Errorf("failed to read response: %w", err)
}
return respBody, resp.StatusCode, nil
}
// extractAPIError extracts an error message from a Google API error response.
func extractAPIError(body []byte) string {
var apiErr googleAPIError
if err := json.Unmarshal(body, &apiErr); err == nil && apiErr.Error.Message != "" {
return fmt.Sprintf("%s (%s)", apiErr.Error.Message, apiErr.Error.Status)
}
return string(body)
}
// IssueCertificate issues a new certificate via Google CAS.
func (c *Connector) IssueCertificate(ctx context.Context, request issuer.IssuanceRequest) (*issuer.IssuanceResult, error) {
c.logger.Info("processing Google CAS issuance request",
"common_name", request.CommonName,
"san_count", len(request.SANs))
// Convert TTL to seconds string
ttlDuration, err := time.ParseDuration(c.config.TTL)
if err != nil {
return nil, fmt.Errorf("invalid TTL %q: %w", c.config.TTL, err)
}
lifetimeSeconds := fmt.Sprintf("%ds", int(ttlDuration.Seconds()))
// Generate unique certificate ID
certID := fmt.Sprintf("certctl-%d-%s", time.Now().Unix(), randomHex(4))
// Build request
createURL := fmt.Sprintf("%s/%s/certificates?certificateId=%s",
c.config.BaseURL, c.parentPath(), certID)
createBody := map[string]interface{}{
"lifetime": lifetimeSeconds,
"pemCsr": request.CSRPEM,
}
respBody, statusCode, err := c.doAuthenticatedRequest(ctx, http.MethodPost, createURL, createBody)
if err != nil {
return nil, fmt.Errorf("Google CAS create certificate failed: %w", err)
}
if statusCode != http.StatusOK {
return nil, fmt.Errorf("Google CAS create certificate returned status %d: %s",
statusCode, extractAPIError(respBody))
}
// Parse response
var certResp certificateCreateResponse
if err := json.Unmarshal(respBody, &certResp); err != nil {
return nil, fmt.Errorf("failed to parse Google CAS response: %w", err)
}
if certResp.PEMCertificate == "" {
return nil, fmt.Errorf("no certificate in Google CAS response")
}
// Parse leaf cert to extract metadata
block, _ := pem.Decode([]byte(certResp.PEMCertificate))
if block == nil {
return nil, fmt.Errorf("failed to decode certificate PEM from Google CAS")
}
cert, err := x509.ParseCertificate(block.Bytes)
if err != nil {
return nil, fmt.Errorf("failed to parse certificate: %w", err)
}
// Build chain PEM
chainPEM := strings.Join(certResp.PEMCertificateChain, "\n")
serial := formatSerial(cert.SerialNumber)
// Store full resource name as OrderID for revocation lookup
orderID := certResp.Name
c.logger.Info("Google CAS certificate issued",
"common_name", request.CommonName,
"serial", serial,
"name", certResp.Name,
"not_after", cert.NotAfter)
return &issuer.IssuanceResult{
CertPEM: certResp.PEMCertificate,
ChainPEM: chainPEM,
Serial: serial,
NotBefore: cert.NotBefore,
NotAfter: cert.NotAfter,
OrderID: orderID,
}, nil
}
// RenewCertificate renews a certificate by creating a new one.
// For Google CAS, renewal is functionally identical to issuance.
func (c *Connector) RenewCertificate(ctx context.Context, request issuer.RenewalRequest) (*issuer.IssuanceResult, error) {
c.logger.Info("processing Google CAS renewal request",
"common_name", request.CommonName,
"san_count", len(request.SANs))
return c.IssueCertificate(ctx, issuer.IssuanceRequest{
CommonName: request.CommonName,
SANs: request.SANs,
CSRPEM: request.CSRPEM,
EKUs: request.EKUs,
})
}
// RevokeCertificate revokes a certificate at Google CAS.
// The serial field should contain the full certificate resource name (set as OrderID at issuance).
func (c *Connector) RevokeCertificate(ctx context.Context, request issuer.RevocationRequest) error {
c.logger.Info("processing Google CAS revocation request", "serial", request.Serial)
// Determine the certificate resource name.
// If serial starts with "projects/", it's a full resource name (from OrderID).
// Otherwise, construct a best-effort path.
var certName string
if strings.HasPrefix(request.Serial, "projects/") {
certName = request.Serial
} else {
certName = fmt.Sprintf("%s/certificates/%s", c.parentPath(), request.Serial)
}
reason := mapRevocationReason(request.Reason)
revokeURL := fmt.Sprintf("%s/%s:revoke", c.config.BaseURL, certName)
revokeBody := map[string]interface{}{
"reason": reason,
}
respBody, statusCode, err := c.doAuthenticatedRequest(ctx, http.MethodPost, revokeURL, revokeBody)
if err != nil {
return fmt.Errorf("Google CAS revoke failed: %w", err)
}
if statusCode != http.StatusOK {
return fmt.Errorf("Google CAS revoke returned status %d: %s",
statusCode, extractAPIError(respBody))
}
c.logger.Info("Google CAS certificate revoked", "name", certName, "reason", reason)
return nil
}
// GetOrderStatus returns the status of a Google CAS order.
// Google CAS signs synchronously, so orders are always "completed" immediately.
func (c *Connector) GetOrderStatus(ctx context.Context, orderID string) (*issuer.OrderStatus, error) {
return &issuer.OrderStatus{
OrderID: orderID,
Status: "completed",
UpdatedAt: time.Now(),
}, nil
}
// GenerateCRL is not supported because Google CAS manages CRL directly.
func (c *Connector) GenerateCRL(ctx context.Context, revokedCerts []issuer.RevokedCertEntry) ([]byte, error) {
return nil, fmt.Errorf("Google CAS manages CRL directly; not supported via certctl")
}
// SignOCSPResponse is not supported because Google CAS manages OCSP directly.
func (c *Connector) SignOCSPResponse(ctx context.Context, req issuer.OCSPSignRequest) ([]byte, error) {
return nil, fmt.Errorf("Google CAS manages OCSP directly; not supported via certctl")
}
// GetCACertPEM retrieves the CA certificate chain from Google CAS.
func (c *Connector) GetCACertPEM(ctx context.Context) (string, error) {
fetchURL := fmt.Sprintf("%s/%s:fetchCaCerts", c.config.BaseURL, c.parentPath())
respBody, statusCode, err := c.doAuthenticatedRequest(ctx, http.MethodPost, fetchURL, map[string]interface{}{})
if err != nil {
return "", fmt.Errorf("Google CAS fetchCaCerts failed: %w", err)
}
if statusCode != http.StatusOK {
return "", fmt.Errorf("Google CAS fetchCaCerts returned status %d: %s",
statusCode, extractAPIError(respBody))
}
var resp fetchCACertsResponse
if err := json.Unmarshal(respBody, &resp); err != nil {
return "", fmt.Errorf("failed to parse fetchCaCerts response: %w", err)
}
if len(resp.CACerts) == 0 || len(resp.CACerts[0].Certificates) == 0 {
return "", fmt.Errorf("no CA certificates in response")
}
// Join all certificates from the first CA cert chain
return strings.Join(resp.CACerts[0].Certificates, "\n"), nil
}
// GetRenewalInfo returns nil, nil as Google CAS does not support ACME Renewal Information (ARI).
func (c *Connector) GetRenewalInfo(ctx context.Context, certPEM string) (*issuer.RenewalInfoResult, error) {
return nil, nil
}
// mapRevocationReason maps certctl RFC 5280 reason strings to Google CAS enum values.
func mapRevocationReason(reason *string) string {
if reason == nil {
return "REVOCATION_REASON_UNSPECIFIED"
}
switch strings.ToLower(*reason) {
case "keycompromise":
return "KEY_COMPROMISE"
case "cacompromise":
return "CERTIFICATE_AUTHORITY_COMPROMISE"
case "affiliationchanged":
return "AFFILIATION_CHANGED"
case "superseded":
return "SUPERSEDED"
case "cessationofoperation":
return "CESSATION_OF_OPERATION"
case "certificatehold":
return "CERTIFICATE_HOLD"
case "privilegewithdrawn":
return "PRIVILEGE_WITHDRAWN"
default:
return "REVOCATION_REASON_UNSPECIFIED"
}
}
// formatSerial converts a *big.Int serial number to a hex string.
func formatSerial(serial *big.Int) string {
return serial.Text(16)
}
// randomHex generates n random bytes and returns them as a hex string.
func randomHex(n int) string {
b := make([]byte, n)
_, _ = rand.Read(b)
return fmt.Sprintf("%x", b)
}
// base64URLEncode encodes data using base64url without padding.
func base64URLEncode(data []byte) string {
return base64.RawURLEncoding.EncodeToString(data)
}
// Ensure Connector implements the issuer.Connector interface.
var _ issuer.Connector = (*Connector)(nil)
internal/connector/issuer/googlecas/googlecas_test.go
+826
View File
@@ -0,0 +1,826 @@
package googlecas_test
import (
"context"
"crypto/rand"
"crypto/rsa"
"crypto/x509"
"crypto/x509/pkix"
"encoding/json"
"encoding/pem"
"fmt"
"log/slog"
"math/big"
"net/http"
"net/http/httptest"
"os"
"path/filepath"
"strings"
"testing"
"time"
"github.com/shankar0123/certctl/internal/connector/issuer"
"github.com/shankar0123/certctl/internal/connector/issuer/googlecas"
)
func TestGoogleCASConnector(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
t.Run("ValidateConfig_Success", func(t *testing.T) {
credPath := createTestCredentialsFile(t)
config := googlecas.Config{
Project: "my-project",
Location: "us-central1",
CAPool: "my-pool",
Credentials: credPath,
TTL: "8760h",
}
connector := googlecas.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err != nil {
t.Fatalf("ValidateConfig failed: %v", err)
}
})
t.Run("ValidateConfig_MissingProject", func(t *testing.T) {
config := googlecas.Config{
Location: "us-central1",
CAPool: "my-pool",
Credentials: "/tmp/creds.json",
}
connector := googlecas.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("Expected error for missing project")
}
if !strings.Contains(err.Error(), "project is required") {
t.Errorf("Expected project required error, got: %v", err)
}
})
t.Run("ValidateConfig_MissingLocation", func(t *testing.T) {
config := googlecas.Config{
Project: "my-project",
CAPool: "my-pool",
Credentials: "/tmp/creds.json",
}
connector := googlecas.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("Expected error for missing location")
}
if !strings.Contains(err.Error(), "location is required") {
t.Errorf("Expected location required error, got: %v", err)
}
})
t.Run("ValidateConfig_MissingCAPool", func(t *testing.T) {
config := googlecas.Config{
Project: "my-project",
Location: "us-central1",
Credentials: "/tmp/creds.json",
}
connector := googlecas.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("Expected error for missing CA pool")
}
if !strings.Contains(err.Error(), "CA pool is required") {
t.Errorf("Expected CA pool required error, got: %v", err)
}
})
t.Run("ValidateConfig_MissingCredentials", func(t *testing.T) {
config := googlecas.Config{
Project: "my-project",
Location: "us-central1",
CAPool: "my-pool",
}
connector := googlecas.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("Expected error for missing credentials")
}
if !strings.Contains(err.Error(), "credentials path is required") {
t.Errorf("Expected credentials required error, got: %v", err)
}
})
t.Run("ValidateConfig_InvalidCredentialsFile", func(t *testing.T) {
config := googlecas.Config{
Project: "my-project",
Location: "us-central1",
CAPool: "my-pool",
Credentials: "/nonexistent/path/credentials.json",
}
connector := googlecas.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("Expected error for invalid credentials file")
}
if !strings.Contains(err.Error(), "credentials invalid") {
t.Errorf("Expected credentials invalid error, got: %v", err)
}
})
t.Run("ValidateConfig_MalformedCredentialsJSON", func(t *testing.T) {
tmpDir := t.TempDir()
badFile := filepath.Join(tmpDir, "bad-creds.json")
if err := os.WriteFile(badFile, []byte("not json"), 0600); err != nil {
t.Fatal(err)
}
config := googlecas.Config{
Project: "my-project",
Location: "us-central1",
CAPool: "my-pool",
Credentials: badFile,
}
connector := googlecas.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("Expected error for malformed credentials JSON")
}
if !strings.Contains(err.Error(), "credentials invalid") {
t.Errorf("Expected credentials invalid error, got: %v", err)
}
})
t.Run("IssueCertificate_Success", func(t *testing.T) {
testCertPEM, _ := generateTestCert(t)
credPath := createTestCredentialsFile(t)
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch {
case r.URL.Path == "/token":
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"access_token":"test-token-12345","expires_in":3600,"token_type":"Bearer"}`))
case strings.Contains(r.URL.Path, "/certificates") && r.Method == http.MethodPost &&
!strings.Contains(r.URL.Path, ":revoke") && !strings.Contains(r.URL.Path, ":fetchCaCerts"):
// Verify auth header
auth := r.Header.Get("Authorization")
if auth != "Bearer test-token-12345" {
w.WriteHeader(http.StatusForbidden)
w.Write([]byte(`{"error":{"code":403,"message":"Permission denied","status":"PERMISSION_DENIED"}}`))
return
}
// Verify certificateId query param
certID := r.URL.Query().Get("certificateId")
if certID == "" {
t.Error("Missing certificateId query parameter")
}
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
chainCert, _ := generateTestCert(t)
resp := fmt.Sprintf(`{
"name": "projects/test-project/locations/us-central1/caPools/test-pool/certificates/%s",
"pemCertificate": %q,
"pemCertificateChain": [%q]
}`, certID, testCertPEM, chainCert)
w.Write([]byte(resp))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &googlecas.Config{
Project: "test-project",
Location: "us-central1",
CAPool: "test-pool",
Credentials: credPath,
TTL: "8760h",
BaseURL: srv.URL,
TokenURL: srv.URL + "/token",
}
connector := googlecas.New(config, logger)
_, csrPEM := generateTestCSR(t, "app.example.com")
req := issuer.IssuanceRequest{
CommonName: "app.example.com",
SANs: []string{"app.example.com", "www.example.com"},
CSRPEM: csrPEM,
}
result, err := connector.IssueCertificate(ctx, req)
if err != nil {
t.Fatalf("IssueCertificate failed: %v", err)
}
if result.CertPEM == "" {
t.Error("CertPEM is empty")
}
if result.Serial == "" {
t.Error("Serial is empty")
}
if result.OrderID == "" {
t.Error("OrderID is empty")
}
if !strings.HasPrefix(result.OrderID, "projects/") {
t.Errorf("Expected OrderID to be full resource name, got '%s'", result.OrderID)
}
if result.ChainPEM == "" {
t.Error("ChainPEM is empty")
}
if result.NotBefore.IsZero() {
t.Error("NotBefore is zero")
}
if result.NotAfter.IsZero() {
t.Error("NotAfter is zero")
}
t.Logf("Google CAS issued cert: serial=%s, orderID=%s", result.Serial, result.OrderID)
})
t.Run("IssueCertificate_ServerError", func(t *testing.T) {
credPath := createTestCredentialsFile(t)
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch {
case r.URL.Path == "/token":
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"access_token":"test-token","expires_in":3600,"token_type":"Bearer"}`))
case strings.Contains(r.URL.Path, "/certificates"):
w.WriteHeader(http.StatusBadRequest)
w.Write([]byte(`{"error":{"code":400,"message":"Invalid CSR","status":"INVALID_ARGUMENT"}}`))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &googlecas.Config{
Project: "test-project",
Location: "us-central1",
CAPool: "test-pool",
Credentials: credPath,
TTL: "8760h",
BaseURL: srv.URL,
TokenURL: srv.URL + "/token",
}
connector := googlecas.New(config, logger)
_, csrPEM := generateTestCSR(t, "test.example.com")
req := issuer.IssuanceRequest{
CommonName: "test.example.com",
CSRPEM: csrPEM,
}
_, err := connector.IssueCertificate(ctx, req)
if err == nil {
t.Fatal("Expected error for server error response")
}
if !strings.Contains(err.Error(), "Invalid CSR") {
t.Logf("Got error: %v", err)
}
})
t.Run("IssueCertificate_InvalidResponse", func(t *testing.T) {
credPath := createTestCredentialsFile(t)
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch {
case r.URL.Path == "/token":
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"access_token":"test-token","expires_in":3600,"token_type":"Bearer"}`))
case strings.Contains(r.URL.Path, "/certificates"):
w.WriteHeader(http.StatusOK)
w.Write([]byte(`not-json`))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &googlecas.Config{
Project: "test-project",
Location: "us-central1",
CAPool: "test-pool",
Credentials: credPath,
TTL: "8760h",
BaseURL: srv.URL,
TokenURL: srv.URL + "/token",
}
connector := googlecas.New(config, logger)
_, csrPEM := generateTestCSR(t, "test.example.com")
req := issuer.IssuanceRequest{
CommonName: "test.example.com",
CSRPEM: csrPEM,
}
_, err := connector.IssueCertificate(ctx, req)
if err == nil {
t.Fatal("Expected error for invalid response")
}
if !strings.Contains(err.Error(), "parse") {
t.Logf("Got error: %v", err)
}
})
t.Run("GetOrderStatus_AlwaysCompleted", func(t *testing.T) {
config := &googlecas.Config{
Project: "test-project",
Location: "us-central1",
CAPool: "test-pool",
TTL: "8760h",
}
connector := googlecas.New(config, logger)
status, err := connector.GetOrderStatus(ctx, "projects/p/locations/l/caPools/cp/certificates/cert-123")
if err != nil {
t.Fatalf("GetOrderStatus failed: %v", err)
}
if status.Status != "completed" {
t.Errorf("Expected status 'completed', got '%s'", status.Status)
}
if status.OrderID != "projects/p/locations/l/caPools/cp/certificates/cert-123" {
t.Errorf("Expected OrderID preserved, got '%s'", status.OrderID)
}
})
t.Run("RenewCertificate_NewCert", func(t *testing.T) {
testCertPEM, _ := generateTestCert(t)
credPath := createTestCredentialsFile(t)
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch {
case r.URL.Path == "/token":
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"access_token":"test-token","expires_in":3600,"token_type":"Bearer"}`))
case strings.Contains(r.URL.Path, "/certificates") && r.Method == http.MethodPost &&
!strings.Contains(r.URL.Path, ":revoke"):
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
resp := fmt.Sprintf(`{
"name": "projects/test-project/locations/us-central1/caPools/test-pool/certificates/certctl-renew",
"pemCertificate": %q,
"pemCertificateChain": []
}`, testCertPEM)
w.Write([]byte(resp))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &googlecas.Config{
Project: "test-project",
Location: "us-central1",
CAPool: "test-pool",
Credentials: credPath,
TTL: "8760h",
BaseURL: srv.URL,
TokenURL: srv.URL + "/token",
}
connector := googlecas.New(config, logger)
_, csrPEM := generateTestCSR(t, "renew.example.com")
renewReq := issuer.RenewalRequest{
CommonName: "renew.example.com",
CSRPEM: csrPEM,
}
result, err := connector.RenewCertificate(ctx, renewReq)
if err != nil {
t.Fatalf("RenewCertificate failed: %v", err)
}
if result.Serial == "" {
t.Error("Serial is empty")
}
})
t.Run("RevokeCertificate_Success", func(t *testing.T) {
credPath := createTestCredentialsFile(t)
var receivedReason string
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch {
case r.URL.Path == "/token":
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"access_token":"test-token","expires_in":3600,"token_type":"Bearer"}`))
case strings.Contains(r.URL.Path, ":revoke"):
var body map[string]interface{}
json.NewDecoder(r.Body).Decode(&body)
receivedReason = body["reason"].(string)
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"name":"projects/p/locations/l/caPools/cp/certificates/cert-123"}`))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &googlecas.Config{
Project: "test-project",
Location: "us-central1",
CAPool: "test-pool",
Credentials: credPath,
TTL: "8760h",
BaseURL: srv.URL,
TokenURL: srv.URL + "/token",
}
connector := googlecas.New(config, logger)
reason := "keyCompromise"
revokeReq := issuer.RevocationRequest{
Serial: "projects/test-project/locations/us-central1/caPools/test-pool/certificates/cert-123",
Reason: &reason,
}
err := connector.RevokeCertificate(ctx, revokeReq)
if err != nil {
t.Fatalf("RevokeCertificate failed: %v", err)
}
if receivedReason != "KEY_COMPROMISE" {
t.Errorf("Expected reason 'KEY_COMPROMISE', got '%s'", receivedReason)
}
})
t.Run("RevokeCertificate_Error", func(t *testing.T) {
credPath := createTestCredentialsFile(t)
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch {
case r.URL.Path == "/token":
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"access_token":"test-token","expires_in":3600,"token_type":"Bearer"}`))
case strings.Contains(r.URL.Path, ":revoke"):
w.WriteHeader(http.StatusNotFound)
w.Write([]byte(`{"error":{"code":404,"message":"Certificate not found","status":"NOT_FOUND"}}`))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &googlecas.Config{
Project: "test-project",
Location: "us-central1",
CAPool: "test-pool",
Credentials: credPath,
TTL: "8760h",
BaseURL: srv.URL,
TokenURL: srv.URL + "/token",
}
connector := googlecas.New(config, logger)
revokeReq := issuer.RevocationRequest{
Serial: "projects/test-project/locations/us-central1/caPools/test-pool/certificates/nonexistent",
}
err := connector.RevokeCertificate(ctx, revokeReq)
if err == nil {
t.Fatal("Expected error for revoke of nonexistent certificate")
}
if !strings.Contains(err.Error(), "Certificate not found") {
t.Logf("Got error: %v", err)
}
})
t.Run("RevocationReasonMapping", func(t *testing.T) {
credPath := createTestCredentialsFile(t)
tests := []struct {
name string
reason string
expected string
}{
{"keyCompromise", "keyCompromise", "KEY_COMPROMISE"},
{"caCompromise", "caCompromise", "CERTIFICATE_AUTHORITY_COMPROMISE"},
{"affiliationChanged", "affiliationChanged", "AFFILIATION_CHANGED"},
{"superseded", "superseded", "SUPERSEDED"},
{"cessationOfOperation", "cessationOfOperation", "CESSATION_OF_OPERATION"},
{"certificateHold", "certificateHold", "CERTIFICATE_HOLD"},
{"privilegeWithdrawn", "privilegeWithdrawn", "PRIVILEGE_WITHDRAWN"},
{"unspecified", "unspecified", "REVOCATION_REASON_UNSPECIFIED"},
}
for _, tc := range tests {
t.Run(tc.name, func(t *testing.T) {
var receivedReason string
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch {
case r.URL.Path == "/token":
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"access_token":"test-token","expires_in":3600,"token_type":"Bearer"}`))
case strings.Contains(r.URL.Path, ":revoke"):
var body map[string]interface{}
json.NewDecoder(r.Body).Decode(&body)
receivedReason = body["reason"].(string)
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{}`))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &googlecas.Config{
Project: "test-project",
Location: "us-central1",
CAPool: "test-pool",
Credentials: credPath,
TTL: "8760h",
BaseURL: srv.URL,
TokenURL: srv.URL + "/token",
}
connector := googlecas.New(config, logger)
reason := tc.reason
err := connector.RevokeCertificate(ctx, issuer.RevocationRequest{
Serial: "projects/p/locations/l/caPools/cp/certificates/cert-1",
Reason: &reason,
})
if err != nil {
t.Fatalf("RevokeCertificate failed: %v", err)
}
if receivedReason != tc.expected {
t.Errorf("Expected reason '%s', got '%s'", tc.expected, receivedReason)
}
})
}
})
t.Run("GetCACertPEM_Success", func(t *testing.T) {
credPath := createTestCredentialsFile(t)
caCertPEM, _ := generateTestCert(t)
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch {
case r.URL.Path == "/token":
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"access_token":"test-token","expires_in":3600,"token_type":"Bearer"}`))
case strings.Contains(r.URL.Path, ":fetchCaCerts"):
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
resp := fmt.Sprintf(`{"caCerts":[{"certificates":[%q]}]}`, caCertPEM)
w.Write([]byte(resp))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &googlecas.Config{
Project: "test-project",
Location: "us-central1",
CAPool: "test-pool",
Credentials: credPath,
TTL: "8760h",
BaseURL: srv.URL,
TokenURL: srv.URL + "/token",
}
connector := googlecas.New(config, logger)
caPEM, err := connector.GetCACertPEM(ctx)
if err != nil {
t.Fatalf("GetCACertPEM failed: %v", err)
}
if !strings.Contains(caPEM, "BEGIN CERTIFICATE") {
t.Errorf("Expected CA PEM to contain certificate, got: %s", caPEM[:50])
}
})
t.Run("GetCACertPEM_Error", func(t *testing.T) {
credPath := createTestCredentialsFile(t)
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch {
case r.URL.Path == "/token":
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"access_token":"test-token","expires_in":3600,"token_type":"Bearer"}`))
case strings.Contains(r.URL.Path, ":fetchCaCerts"):
w.WriteHeader(http.StatusForbidden)
w.Write([]byte(`{"error":{"code":403,"message":"Permission denied","status":"PERMISSION_DENIED"}}`))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &googlecas.Config{
Project: "test-project",
Location: "us-central1",
CAPool: "test-pool",
Credentials: credPath,
TTL: "8760h",
BaseURL: srv.URL,
TokenURL: srv.URL + "/token",
}
connector := googlecas.New(config, logger)
_, err := connector.GetCACertPEM(ctx)
if err == nil {
t.Fatal("Expected error for permission denied")
}
})
t.Run("GetRenewalInfo_ReturnsNil", func(t *testing.T) {
config := &googlecas.Config{
Project: "test-project",
Location: "us-central1",
CAPool: "test-pool",
}
connector := googlecas.New(config, logger)
result, err := connector.GetRenewalInfo(ctx, "-----BEGIN CERTIFICATE-----\ntest\n-----END CERTIFICATE-----")
if err != nil {
t.Fatalf("GetRenewalInfo should not return error, got: %v", err)
}
if result != nil {
t.Fatal("GetRenewalInfo should return nil for Google CAS")
}
})
t.Run("AuthHeader_BearerToken", func(t *testing.T) {
testCertPEM, _ := generateTestCert(t)
credPath := createTestCredentialsFile(t)
var authHeader string
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch {
case r.URL.Path == "/token":
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"access_token":"verified-token-abc","expires_in":3600,"token_type":"Bearer"}`))
case strings.Contains(r.URL.Path, "/certificates") && r.Method == http.MethodPost:
authHeader = r.Header.Get("Authorization")
w.Header().Set("Content-Type", "application/json")
w.WriteHeader(http.StatusOK)
resp := fmt.Sprintf(`{
"name": "projects/p/locations/l/caPools/cp/certificates/c1",
"pemCertificate": %q,
"pemCertificateChain": []
}`, testCertPEM)
w.Write([]byte(resp))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &googlecas.Config{
Project: "test-project",
Location: "us-central1",
CAPool: "test-pool",
Credentials: credPath,
TTL: "8760h",
BaseURL: srv.URL,
TokenURL: srv.URL + "/token",
}
connector := googlecas.New(config, logger)
_, csrPEM := generateTestCSR(t, "auth-test.example.com")
_, err := connector.IssueCertificate(ctx, issuer.IssuanceRequest{
CommonName: "auth-test.example.com",
CSRPEM: csrPEM,
})
if err != nil {
t.Fatalf("IssueCertificate failed: %v", err)
}
if authHeader != "Bearer verified-token-abc" {
t.Errorf("Expected 'Bearer verified-token-abc', got '%s'", authHeader)
}
})
}
// createTestCredentialsFile generates a temporary service account JSON file with a test RSA key.
func createTestCredentialsFile(t *testing.T) string {
t.Helper()
key, err := rsa.GenerateKey(rand.Reader, 2048)
if err != nil {
t.Fatalf("Failed to generate RSA key: %v", err)
}
keyPEM := pem.EncodeToMemory(&pem.Block{
Type: "RSA PRIVATE KEY",
Bytes: x509.MarshalPKCS1PrivateKey(key),
})
creds := map[string]interface{}{
"type": "service_account",
"project_id": "test-project",
"private_key_id": "key-123",
"private_key": string(keyPEM),
"client_email": "certctl@test-project.iam.gserviceaccount.com",
"token_uri": "https://oauth2.googleapis.com/token",
}
data, err := json.Marshal(creds)
if err != nil {
t.Fatalf("Failed to marshal credentials: %v", err)
}
tmpDir := t.TempDir()
credPath := filepath.Join(tmpDir, "credentials.json")
if err := os.WriteFile(credPath, data, 0600); err != nil {
t.Fatalf("Failed to write credentials file: %v", err)
}
return credPath
}
// generateTestCert creates a self-signed test certificate and returns the PEM strings.
func generateTestCert(t *testing.T) (certPEM string, keyPEM string) {
t.Helper()
key, err := rsa.GenerateKey(rand.Reader, 2048)
if err != nil {
t.Fatalf("Failed to generate key: %v", err)
}
serial, _ := rand.Int(rand.Reader, new(big.Int).Lsh(big.NewInt(1), 128))
template := &x509.Certificate{
SerialNumber: serial,
Subject: pkix.Name{
CommonName: "Test Certificate",
},
NotBefore: time.Now().Add(-1 * time.Hour),
NotAfter: time.Now().Add(24 * time.Hour),
DNSNames: []string{"test.example.com"},
KeyUsage: x509.KeyUsageDigitalSignature,
ExtKeyUsage: []x509.ExtKeyUsage{x509.ExtKeyUsageServerAuth},
BasicConstraintsValid: true,
}
certBytes, err := x509.CreateCertificate(rand.Reader, template, template, &key.PublicKey, key)
if err != nil {
t.Fatalf("Failed to create certificate: %v", err)
}
certPEM = string(pem.EncodeToMemory(&pem.Block{Type: "CERTIFICATE", Bytes: certBytes}))
keyPEM = string(pem.EncodeToMemory(&pem.Block{Type: "RSA PRIVATE KEY", Bytes: x509.MarshalPKCS1PrivateKey(key)}))
return certPEM, keyPEM
}
// generateTestCSR creates a test CSR for the given common name.
func generateTestCSR(t *testing.T, commonName string) (*x509.CertificateRequest, string) {
t.Helper()
key, err := rsa.GenerateKey(rand.Reader, 2048)
if err != nil {
t.Fatalf("Failed to generate key: %v", err)
}
csrTemplate := x509.CertificateRequest{
Subject: pkix.Name{
CommonName: commonName,
},
DNSNames: []string{commonName},
SignatureAlgorithm: x509.SHA256WithRSA,
}
csrBytes, err := x509.CreateCertificateRequest(rand.Reader, &csrTemplate, key)
if err != nil {
t.Fatalf("Failed to create CSR: %v", err)
}
csrPEM := string(pem.EncodeToMemory(&pem.Block{
Type: "CERTIFICATE REQUEST",
Bytes: csrBytes,
}))
csr, err := x509.ParseCertificateRequest(csrBytes)
if err != nil {
t.Fatalf("Failed to parse CSR: %v", err)
}
return csr, csrPEM
}
internal/connector/issuer/sectigo/sectigo.go
+618
View File
@@ -0,0 +1,618 @@
// Package sectigo implements the issuer.Connector interface for Sectigo Certificate Manager (SCM).
//
// Sectigo Certificate Manager is an enterprise certificate authority offering DV, OV, and EV
// certificates. Like DigiCert, Sectigo uses an asynchronous order model: submit an enrollment,
// receive an sslId, then poll for completion. OV/EV certificates require organization validation
// which may take hours or days; DV certificates may be issued immediately.
//
// This connector maps to certctl's existing job state machine:
// - IssueCertificate submits the enrollment; if status is "Issued", returns cert immediately.
// If status is "Applied" or "Pending", returns OrderID with empty CertPEM — the job system
// polls via GetOrderStatus.
// - GetOrderStatus polls the order; when status becomes "Issued", downloads and parses the
// PEM bundle via the collect endpoint.
//
// Authentication: Three custom headers on every request — customerUri, login, password.
//
// Sectigo SCM REST API used:
//
// POST /ssl/v1/enroll - Submit certificate enrollment
// GET /ssl/v1/{sslId} - Check enrollment status
// GET /ssl/v1/collect/{sslId}/pem - Download PEM bundle when issued
// POST /ssl/v1/revoke/{sslId} - Revoke certificate
// GET /ssl/v1/types - List available cert types (used for health check)
package sectigo
import (
"bytes"
"context"
"crypto/x509"
"encoding/json"
"encoding/pem"
"fmt"
"io"
"log/slog"
"net/http"
"strings"
"time"
"github.com/shankar0123/certctl/internal/connector/issuer"
)
// Config represents the Sectigo Certificate Manager issuer connector configuration.
type Config struct {
// CustomerURI is the Sectigo customer URI (organization identifier).
// Required. Set via CERTCTL_SECTIGO_CUSTOMER_URI environment variable.
CustomerURI string `json:"customer_uri"`
// Login is the Sectigo API account login.
// Required. Set via CERTCTL_SECTIGO_LOGIN environment variable.
Login string `json:"login"`
// Password is the Sectigo API account password or API key.
// Required. Set via CERTCTL_SECTIGO_PASSWORD environment variable.
Password string `json:"password"`
// OrgID is the Sectigo organization ID for certificate enrollments.
// Required. Set via CERTCTL_SECTIGO_ORG_ID environment variable.
OrgID int `json:"org_id"`
// CertType is the Sectigo certificate type ID (from GET /ssl/v1/types).
// Required for enrollment. Set via CERTCTL_SECTIGO_CERT_TYPE environment variable.
CertType int `json:"cert_type"`
// Term is the certificate validity in days (e.g., 365, 730).
// Default: 365. Set via CERTCTL_SECTIGO_TERM environment variable.
Term int `json:"term"`
// BaseURL is the Sectigo SCM API base URL.
// Default: "https://cert-manager.com/api".
// Set via CERTCTL_SECTIGO_BASE_URL environment variable.
BaseURL string `json:"base_url"`
}
// Connector implements the issuer.Connector interface for Sectigo Certificate Manager.
type Connector struct {
config *Config
logger *slog.Logger
httpClient *http.Client
}
// New creates a new Sectigo SCM connector with the given configuration and logger.
func New(config *Config, logger *slog.Logger) *Connector {
if config != nil {
if config.Term == 0 {
config.Term = 365
}
if config.BaseURL == "" {
config.BaseURL = "https://cert-manager.com/api"
}
}
return &Connector{
config: config,
logger: logger,
httpClient: &http.Client{
Timeout: 30 * time.Second,
},
}
}
// enrollRequest is the JSON body for Sectigo certificate enrollment.
type enrollRequest struct {
OrgID int `json:"orgId"`
CSR string `json:"csr"`
CertType int `json:"certType"`
Term int `json:"term"`
SubjAltNames string `json:"subjAltNames,omitempty"`
Comments string `json:"comments,omitempty"`
ExternalRequester string `json:"externalRequester,omitempty"`
}
// enrollResponse is the JSON response from a certificate enrollment.
type enrollResponse struct {
SSLId int `json:"sslId"`
RenewId string `json:"renewId,omitempty"`
}
// statusResponse is the JSON response from an enrollment status check.
type statusResponse struct {
SSLId int `json:"sslId"`
Status string `json:"status"`
CommonName string `json:"commonName,omitempty"`
SerialNumber string `json:"serialNumber,omitempty"`
}
// setAuthHeaders sets the three Sectigo authentication headers on a request.
func (c *Connector) setAuthHeaders(req *http.Request) {
req.Header.Set("customerUri", c.config.CustomerURI)
req.Header.Set("login", c.config.Login)
req.Header.Set("password", c.config.Password)
req.Header.Set("Content-Type", "application/json")
}
// ValidateConfig checks that the Sectigo configuration is valid and API access works.
func (c *Connector) ValidateConfig(ctx context.Context, rawConfig json.RawMessage) error {
var cfg Config
if err := json.Unmarshal(rawConfig, &cfg); err != nil {
return fmt.Errorf("invalid Sectigo config: %w", err)
}
if cfg.CustomerURI == "" {
return fmt.Errorf("Sectigo customer_uri is required")
}
if cfg.Login == "" {
return fmt.Errorf("Sectigo login is required")
}
if cfg.Password == "" {
return fmt.Errorf("Sectigo password is required")
}
if cfg.OrgID == 0 {
return fmt.Errorf("Sectigo org_id is required")
}
if cfg.Term == 0 {
cfg.Term = 365
}
if cfg.BaseURL == "" {
cfg.BaseURL = "https://cert-manager.com/api"
}
// Test API access via GET /ssl/v1/types (health check)
typesURL := cfg.BaseURL + "/ssl/v1/types"
req, err := http.NewRequestWithContext(ctx, http.MethodGet, typesURL, nil)
if err != nil {
return fmt.Errorf("failed to create API test request: %w", err)
}
req.Header.Set("customerUri", cfg.CustomerURI)
req.Header.Set("login", cfg.Login)
req.Header.Set("password", cfg.Password)
req.Header.Set("Content-Type", "application/json")
resp, err := c.httpClient.Do(req)
if err != nil {
return fmt.Errorf("Sectigo API not reachable at %s: %w", cfg.BaseURL, err)
}
defer resp.Body.Close()
if resp.StatusCode == http.StatusForbidden || resp.StatusCode == http.StatusUnauthorized {
return fmt.Errorf("Sectigo API credentials are invalid (status %d)", resp.StatusCode)
}
if resp.StatusCode != http.StatusOK {
return fmt.Errorf("Sectigo API returned status %d", resp.StatusCode)
}
c.config = &cfg
c.logger.Info("Sectigo Certificate Manager configuration validated",
"base_url", cfg.BaseURL,
"org_id", cfg.OrgID)
return nil
}
// IssueCertificate submits a certificate enrollment to Sectigo SCM.
// If the certificate is issued immediately (DV certs), returns the cert.
// If pending (OV/EV certs), returns OrderID with empty CertPEM for polling.
func (c *Connector) IssueCertificate(ctx context.Context, request issuer.IssuanceRequest) (*issuer.IssuanceResult, error) {
c.logger.Info("processing Sectigo enrollment request",
"common_name", request.CommonName,
"san_count", len(request.SANs),
"cert_type", c.config.CertType)
enrollReq := enrollRequest{
OrgID: c.config.OrgID,
CSR: request.CSRPEM,
CertType: c.config.CertType,
Term: c.config.Term,
Comments: "Issued by certctl",
}
if len(request.SANs) > 0 {
enrollReq.SubjAltNames = strings.Join(request.SANs, ",")
}
body, err := json.Marshal(enrollReq)
if err != nil {
return nil, fmt.Errorf("failed to marshal enrollment request: %w", err)
}
enrollURL := c.config.BaseURL + "/ssl/v1/enroll"
req, err := http.NewRequestWithContext(ctx, http.MethodPost, enrollURL, bytes.NewReader(body))
if err != nil {
return nil, fmt.Errorf("failed to create enrollment request: %w", err)
}
c.setAuthHeaders(req)
resp, err := c.httpClient.Do(req)
if err != nil {
return nil, fmt.Errorf("Sectigo enrollment request failed: %w", err)
}
defer resp.Body.Close()
respBody, err := io.ReadAll(resp.Body)
if err != nil {
return nil, fmt.Errorf("failed to read enrollment response: %w", err)
}
if resp.StatusCode != http.StatusOK && resp.StatusCode != http.StatusCreated {
return nil, fmt.Errorf("Sectigo enrollment returned status %d: %s", resp.StatusCode, string(respBody))
}
var enrollResp enrollResponse
if err := json.Unmarshal(respBody, &enrollResp); err != nil {
return nil, fmt.Errorf("failed to parse enrollment response: %w", err)
}
orderID := fmt.Sprintf("%d", enrollResp.SSLId)
c.logger.Info("Sectigo enrollment submitted", "ssl_id", orderID)
// Check status immediately to see if cert was issued right away
status, err := c.checkStatus(ctx, enrollResp.SSLId)
if err != nil {
// Status check failed but enrollment succeeded — return as pending
c.logger.Warn("Sectigo status check after enrollment failed, treating as pending",
"ssl_id", orderID, "error", err)
return &issuer.IssuanceResult{
OrderID: orderID,
}, nil
}
if status.Status == "Issued" {
certPEM, chainPEM, serial, notBefore, notAfter, collectErr := c.collectCertificate(ctx, enrollResp.SSLId)
if collectErr != nil {
// Cert is issued but collect failed — might not be generated yet
c.logger.Warn("Sectigo certificate issued but collect failed, treating as pending",
"ssl_id", orderID, "error", collectErr)
return &issuer.IssuanceResult{
OrderID: orderID,
}, nil
}
c.logger.Info("Sectigo certificate issued immediately",
"ssl_id", orderID,
"serial", serial)
return &issuer.IssuanceResult{
CertPEM: certPEM,
ChainPEM: chainPEM,
Serial: serial,
NotBefore: notBefore,
NotAfter: notAfter,
OrderID: orderID,
}, nil
}
// Pending — return OrderID for polling via GetOrderStatus
c.logger.Info("Sectigo enrollment pending validation",
"ssl_id", orderID,
"status", status.Status)
return &issuer.IssuanceResult{
OrderID: orderID,
}, nil
}
// RenewCertificate renews a certificate by submitting a new enrollment.
// Sectigo supports POST /ssl/renewById/{sslId} but for simplicity we submit
// a new enrollment (same pattern as DigiCert).
func (c *Connector) RenewCertificate(ctx context.Context, request issuer.RenewalRequest) (*issuer.IssuanceResult, error) {
c.logger.Info("processing Sectigo renewal request",
"common_name", request.CommonName,
"san_count", len(request.SANs))
return c.IssueCertificate(ctx, issuer.IssuanceRequest{
CommonName: request.CommonName,
SANs: request.SANs,
CSRPEM: request.CSRPEM,
EKUs: request.EKUs,
})
}
// RevokeCertificate revokes a certificate at Sectigo SCM.
func (c *Connector) RevokeCertificate(ctx context.Context, request issuer.RevocationRequest) error {
c.logger.Info("processing Sectigo revocation request", "serial", request.Serial)
reason := "Unspecified"
if request.Reason != nil {
reason = mapRevocationReason(*request.Reason)
}
revokeBody := map[string]interface{}{
"reason": reason,
}
body, err := json.Marshal(revokeBody)
if err != nil {
return fmt.Errorf("failed to marshal revoke request: %w", err)
}
// Sectigo uses sslId in the URL path for revocation
revokeURL := fmt.Sprintf("%s/ssl/v1/revoke/%s", c.config.BaseURL, request.Serial)
req, err := http.NewRequestWithContext(ctx, http.MethodPost, revokeURL, bytes.NewReader(body))
if err != nil {
return fmt.Errorf("failed to create revoke request: %w", err)
}
c.setAuthHeaders(req)
resp, err := c.httpClient.Do(req)
if err != nil {
return fmt.Errorf("Sectigo revoke request failed: %w", err)
}
defer resp.Body.Close()
// Sectigo returns 204 No Content on successful revocation
if resp.StatusCode != http.StatusNoContent && resp.StatusCode != http.StatusOK {
respBody, _ := io.ReadAll(resp.Body)
return fmt.Errorf("Sectigo revoke returned status %d: %s", resp.StatusCode, string(respBody))
}
c.logger.Info("Sectigo certificate revoked", "serial", request.Serial, "reason", reason)
return nil
}
// GetOrderStatus checks the status of a Sectigo certificate enrollment.
// If the enrollment is "Issued", downloads the certificate and returns it.
// If still pending, returns pending status for continued polling.
func (c *Connector) GetOrderStatus(ctx context.Context, orderID string) (*issuer.OrderStatus, error) {
c.logger.Debug("checking Sectigo enrollment status", "ssl_id", orderID)
// Parse sslId from string
var sslId int
if _, err := fmt.Sscanf(orderID, "%d", &sslId); err != nil {
return nil, fmt.Errorf("invalid Sectigo ssl_id: %s", orderID)
}
status, err := c.checkStatus(ctx, sslId)
if err != nil {
return nil, err
}
now := time.Now()
switch status.Status {
case "Issued":
certPEM, chainPEM, serial, notBefore, notAfter, collectErr := c.collectCertificate(ctx, sslId)
if collectErr != nil {
// Cert approved but not yet generated — treat as pending
if isCollectNotReady(collectErr) {
msg := fmt.Sprintf("enrollment %s is issued but certificate not yet generated", orderID)
return &issuer.OrderStatus{
OrderID: orderID,
Status: "pending",
Message: &msg,
UpdatedAt: now,
}, nil
}
return nil, fmt.Errorf("failed to collect certificate: %w", collectErr)
}
c.logger.Info("Sectigo enrollment completed",
"ssl_id", orderID,
"serial", serial)
return &issuer.OrderStatus{
OrderID: orderID,
Status: "completed",
CertPEM: &certPEM,
ChainPEM: &chainPEM,
Serial: &serial,
NotBefore: &notBefore,
NotAfter: &notAfter,
UpdatedAt: now,
}, nil
case "Applied", "Pending":
msg := fmt.Sprintf("enrollment %s is %s", orderID, status.Status)
return &issuer.OrderStatus{
OrderID: orderID,
Status: "pending",
Message: &msg,
UpdatedAt: now,
}, nil
case "Rejected":
msg := fmt.Sprintf("enrollment %s was rejected", orderID)
return &issuer.OrderStatus{
OrderID: orderID,
Status: "failed",
Message: &msg,
UpdatedAt: now,
}, nil
case "Revoked", "Expired", "Not Enrolled":
msg := fmt.Sprintf("enrollment %s has status: %s", orderID, status.Status)
return &issuer.OrderStatus{
OrderID: orderID,
Status: "failed",
Message: &msg,
UpdatedAt: now,
}, nil
default:
msg := fmt.Sprintf("unknown enrollment status: %s", status.Status)
return &issuer.OrderStatus{
OrderID: orderID,
Status: "pending",
Message: &msg,
UpdatedAt: now,
}, nil
}
}
// checkStatus retrieves the enrollment status from Sectigo.
func (c *Connector) checkStatus(ctx context.Context, sslId int) (*statusResponse, error) {
statusURL := fmt.Sprintf("%s/ssl/v1/%d", c.config.BaseURL, sslId)
req, err := http.NewRequestWithContext(ctx, http.MethodGet, statusURL, nil)
if err != nil {
return nil, fmt.Errorf("failed to create status request: %w", err)
}
c.setAuthHeaders(req)
resp, err := c.httpClient.Do(req)
if err != nil {
return nil, fmt.Errorf("Sectigo status request failed: %w", err)
}
defer resp.Body.Close()
respBody, err := io.ReadAll(resp.Body)
if err != nil {
return nil, fmt.Errorf("failed to read status response: %w", err)
}
if resp.StatusCode != http.StatusOK {
return nil, fmt.Errorf("Sectigo status returned %d: %s", resp.StatusCode, string(respBody))
}
var statusResp statusResponse
if err := json.Unmarshal(respBody, &statusResp); err != nil {
return nil, fmt.Errorf("failed to parse status response: %w", err)
}
return &statusResp, nil
}
// collectCertificate downloads the PEM bundle for a Sectigo certificate.
func (c *Connector) collectCertificate(ctx context.Context, sslId int) (certPEM string, chainPEM string, serial string, notBefore time.Time, notAfter time.Time, err error) {
collectURL := fmt.Sprintf("%s/ssl/v1/collect/%d/pem", c.config.BaseURL, sslId)
req, reqErr := http.NewRequestWithContext(ctx, http.MethodGet, collectURL, nil)
if reqErr != nil {
err = fmt.Errorf("failed to create collect request: %w", reqErr)
return
}
c.setAuthHeaders(req)
resp, doErr := c.httpClient.Do(req)
if doErr != nil {
err = fmt.Errorf("Sectigo collect request failed: %w", doErr)
return
}
defer resp.Body.Close()
body, readErr := io.ReadAll(resp.Body)
if readErr != nil {
err = fmt.Errorf("failed to read collect response: %w", readErr)
return
}
// Sectigo returns 400 with code -183 when cert is approved but not yet generated
if resp.StatusCode == http.StatusBadRequest {
err = &collectNotReadyError{statusCode: resp.StatusCode, body: string(body)}
return
}
if resp.StatusCode != http.StatusOK {
err = fmt.Errorf("Sectigo collect returned status %d: %s", resp.StatusCode, string(body))
return
}
// Parse the PEM bundle: first cert is the leaf, rest are intermediates
certPEM, chainPEM, serial, notBefore, notAfter, err = parsePEMBundle(string(body))
return
}
// collectNotReadyError indicates the certificate is not yet generated.
type collectNotReadyError struct {
statusCode int
body string
}
func (e *collectNotReadyError) Error() string {
return fmt.Sprintf("certificate not yet available (status %d): %s", e.statusCode, e.body)
}
// isCollectNotReady checks if an error indicates the cert is not yet generated.
func isCollectNotReady(err error) bool {
_, ok := err.(*collectNotReadyError)
return ok
}
// parsePEMBundle splits a PEM bundle into leaf cert and chain, extracting metadata.
func parsePEMBundle(bundle string) (certPEM string, chainPEM string, serial string, notBefore time.Time, notAfter time.Time, err error) {
var certs []string
remaining := bundle
for {
var block *pem.Block
block, rest := pem.Decode([]byte(remaining))
if block == nil {
break
}
if block.Type == "CERTIFICATE" {
certs = append(certs, string(pem.EncodeToMemory(block)))
}
remaining = string(rest)
}
if len(certs) == 0 {
err = fmt.Errorf("no certificates found in PEM bundle")
return
}
certPEM = certs[0]
if len(certs) > 1 {
chainPEM = strings.Join(certs[1:], "")
}
// Parse leaf cert for metadata
block, _ := pem.Decode([]byte(certPEM))
if block == nil {
err = fmt.Errorf("failed to decode leaf certificate PEM")
return
}
cert, parseErr := x509.ParseCertificate(block.Bytes)
if parseErr != nil {
err = fmt.Errorf("failed to parse leaf certificate: %w", parseErr)
return
}
serial = cert.SerialNumber.String()
notBefore = cert.NotBefore
notAfter = cert.NotAfter
return
}
// mapRevocationReason maps RFC 5280 / certctl reason strings to Sectigo reason strings.
func mapRevocationReason(reason string) string {
switch strings.ToLower(reason) {
case "keycompromise", "key_compromise":
return "Compromised"
case "cessationofoperation", "cessation_of_operation":
return "Cessation of Operation"
case "affiliationchanged", "affiliation_changed":
return "Affiliation Changed"
case "superseded":
return "Superseded"
default:
return "Unspecified"
}
}
// GenerateCRL is not supported because Sectigo manages CRL distribution.
func (c *Connector) GenerateCRL(ctx context.Context, revokedCerts []issuer.RevokedCertEntry) ([]byte, error) {
return nil, fmt.Errorf("Sectigo manages CRL distribution; use Sectigo's CRL endpoints")
}
// SignOCSPResponse is not supported because Sectigo manages OCSP.
func (c *Connector) SignOCSPResponse(ctx context.Context, req issuer.OCSPSignRequest) ([]byte, error) {
return nil, fmt.Errorf("Sectigo manages OCSP; use Sectigo's OCSP responder")
}
// GetCACertPEM is not directly supported. Sectigo intermediate certificates
// come with each certificate issuance as part of the PEM bundle.
func (c *Connector) GetCACertPEM(ctx context.Context) (string, error) {
return "", fmt.Errorf("Sectigo intermediate certificates are included with each issued certificate")
}
// GetRenewalInfo returns nil, nil as Sectigo does not support ACME Renewal Information (ARI).
func (c *Connector) GetRenewalInfo(ctx context.Context, certPEM string) (*issuer.RenewalInfoResult, error) {
return nil, nil
}
// Ensure Connector implements the issuer.Connector interface.
var _ issuer.Connector = (*Connector)(nil)
internal/connector/issuer/sectigo/sectigo_test.go
+843
View File
@@ -0,0 +1,843 @@
package sectigo_test
import (
"context"
"crypto/rand"
"crypto/rsa"
"crypto/x509"
"crypto/x509/pkix"
"encoding/json"
"encoding/pem"
"fmt"
"io"
"log/slog"
"math/big"
"net/http"
"net/http/httptest"
"os"
"strings"
"testing"
"github.com/shankar0123/certctl/internal/connector/issuer"
"github.com/shankar0123/certctl/internal/connector/issuer/sectigo"
)
func TestSectigoConnector(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
t.Run("ValidateConfig_Success", func(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
if r.URL.Path == "/ssl/v1/types" {
// Verify all 3 auth headers are present
if r.Header.Get("customerUri") != "test-org" {
t.Errorf("Expected customerUri 'test-org', got '%s'", r.Header.Get("customerUri"))
}
if r.Header.Get("login") != "api-user" {
t.Errorf("Expected login 'api-user', got '%s'", r.Header.Get("login"))
}
if r.Header.Get("password") != "api-pass" {
t.Errorf("Expected password 'api-pass', got '%s'", r.Header.Get("password"))
}
w.WriteHeader(http.StatusOK)
w.Write([]byte(`[{"id":423,"name":"Sectigo OV SSL","term":[365,730]}]`))
return
}
http.NotFound(w, r)
}))
defer srv.Close()
config := sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
CertType: 423,
Term: 365,
BaseURL: srv.URL,
}
connector := sectigo.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err != nil {
t.Fatalf("ValidateConfig failed: %v", err)
}
})
t.Run("ValidateConfig_MissingCustomerURI", func(t *testing.T) {
config := sectigo.Config{
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
}
connector := sectigo.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("Expected error for missing customer_uri")
}
if !strings.Contains(err.Error(), "customer_uri is required") {
t.Errorf("Expected customer_uri required error, got: %v", err)
}
})
t.Run("ValidateConfig_MissingLogin", func(t *testing.T) {
config := sectigo.Config{
CustomerURI: "test-org",
Password: "api-pass",
OrgID: 12345,
}
connector := sectigo.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("Expected error for missing login")
}
if !strings.Contains(err.Error(), "login is required") {
t.Errorf("Expected login required error, got: %v", err)
}
})
t.Run("ValidateConfig_MissingPassword", func(t *testing.T) {
config := sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
OrgID: 12345,
}
connector := sectigo.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("Expected error for missing password")
}
if !strings.Contains(err.Error(), "password is required") {
t.Errorf("Expected password required error, got: %v", err)
}
})
t.Run("ValidateConfig_MissingOrgID", func(t *testing.T) {
config := sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
}
connector := sectigo.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("Expected error for missing org_id")
}
if !strings.Contains(err.Error(), "org_id is required") {
t.Errorf("Expected org_id required error, got: %v", err)
}
})
t.Run("ValidateConfig_InvalidCredentials", func(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
if r.URL.Path == "/ssl/v1/types" {
w.WriteHeader(http.StatusUnauthorized)
w.Write([]byte(`{"code":0,"description":"Invalid credentials"}`))
return
}
http.NotFound(w, r)
}))
defer srv.Close()
config := sectigo.Config{
CustomerURI: "bad-org",
Login: "bad-user",
Password: "bad-pass",
OrgID: 12345,
BaseURL: srv.URL,
}
connector := sectigo.New(nil, logger)
rawConfig, _ := json.Marshal(config)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("Expected error for invalid credentials")
}
if !strings.Contains(err.Error(), "invalid") {
t.Logf("Got error: %v", err)
}
})
t.Run("IssueCertificate_ImmediateSuccess", func(t *testing.T) {
testCertPEM, _ := generateTestCert(t)
testChainPEM, _ := generateTestCert(t)
pemBundle := testCertPEM + testChainPEM
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
// Verify auth headers on every request
if r.Header.Get("customerUri") == "" || r.Header.Get("login") == "" || r.Header.Get("password") == "" {
t.Error("Missing auth headers on request")
}
switch {
case r.URL.Path == "/ssl/v1/enroll" && r.Method == http.MethodPost:
// Verify request body structure
body, _ := io.ReadAll(r.Body)
var req map[string]interface{}
json.Unmarshal(body, &req)
if req["orgId"] == nil {
t.Error("Expected orgId in enrollment request")
}
if req["certType"] == nil {
t.Error("Expected certType in enrollment request")
}
// SANs should be comma-separated string, not array
if sans, ok := req["subjAltNames"].(string); ok {
if !strings.Contains(sans, ",") && len(sans) > 0 {
// Single SAN is fine
}
}
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55001,"renewId":"ren-abc"}`))
case r.URL.Path == "/ssl/v1/55001" && r.Method == http.MethodGet:
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55001,"status":"Issued","commonName":"app.example.com"}`))
case r.URL.Path == "/ssl/v1/collect/55001/pem" && r.Method == http.MethodGet:
w.WriteHeader(http.StatusOK)
w.Write([]byte(pemBundle))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
CertType: 423,
Term: 365,
BaseURL: srv.URL,
}
connector := sectigo.New(config, logger)
_, csrPEM := generateTestCSR(t, "app.example.com")
req := issuer.IssuanceRequest{
CommonName: "app.example.com",
SANs: []string{"app.example.com", "www.example.com"},
CSRPEM: csrPEM,
}
result, err := connector.IssueCertificate(ctx, req)
if err != nil {
t.Fatalf("IssueCertificate failed: %v", err)
}
if result.CertPEM == "" {
t.Error("CertPEM should not be empty for immediate issuance")
}
if result.Serial == "" {
t.Error("Serial should not be empty for immediate issuance")
}
if result.OrderID != "55001" {
t.Errorf("Expected OrderID '55001', got '%s'", result.OrderID)
}
t.Logf("Sectigo issued cert: serial=%s, orderID=%s", result.Serial, result.OrderID)
})
t.Run("IssueCertificate_Pending", func(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch r.URL.Path {
case "/ssl/v1/enroll":
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55002}`))
case "/ssl/v1/55002":
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55002,"status":"Applied","commonName":"secure.example.com"}`))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
CertType: 423,
Term: 365,
BaseURL: srv.URL,
}
connector := sectigo.New(config, logger)
_, csrPEM := generateTestCSR(t, "secure.example.com")
req := issuer.IssuanceRequest{
CommonName: "secure.example.com",
CSRPEM: csrPEM,
}
result, err := connector.IssueCertificate(ctx, req)
if err != nil {
t.Fatalf("IssueCertificate failed: %v", err)
}
if result.OrderID != "55002" {
t.Errorf("Expected OrderID '55002', got '%s'", result.OrderID)
}
if result.CertPEM != "" {
t.Error("CertPEM should be empty for pending order")
}
if result.Serial != "" {
t.Error("Serial should be empty for pending order")
}
})
t.Run("IssueCertificate_ServerError", func(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
w.WriteHeader(http.StatusBadRequest)
w.Write([]byte(`{"code":-14,"description":"Invalid CSR"}`))
}))
defer srv.Close()
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
CertType: 423,
Term: 365,
BaseURL: srv.URL,
}
connector := sectigo.New(config, logger)
req := issuer.IssuanceRequest{
CommonName: "test.example.com",
CSRPEM: "invalid-csr",
}
_, err := connector.IssueCertificate(ctx, req)
if err == nil {
t.Fatal("Expected error for server error response")
}
})
t.Run("GetOrderStatus_Issued", func(t *testing.T) {
testCertPEM, _ := generateTestCert(t)
testChainPEM, _ := generateTestCert(t)
pemBundle := testCertPEM + testChainPEM
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch r.URL.Path {
case "/ssl/v1/55001":
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55001,"status":"Issued","commonName":"app.example.com"}`))
case "/ssl/v1/collect/55001/pem":
w.WriteHeader(http.StatusOK)
w.Write([]byte(pemBundle))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
BaseURL: srv.URL,
}
connector := sectigo.New(config, logger)
status, err := connector.GetOrderStatus(ctx, "55001")
if err != nil {
t.Fatalf("GetOrderStatus failed: %v", err)
}
if status.Status != "completed" {
t.Errorf("Expected status 'completed', got '%s'", status.Status)
}
if status.CertPEM == nil || *status.CertPEM == "" {
t.Error("CertPEM should not be empty for issued order")
}
if status.Serial == nil || *status.Serial == "" {
t.Error("Serial should not be empty for issued order")
}
})
t.Run("GetOrderStatus_Pending", func(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
if r.URL.Path == "/ssl/v1/55002" {
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55002,"status":"Applied"}`))
return
}
http.NotFound(w, r)
}))
defer srv.Close()
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
BaseURL: srv.URL,
}
connector := sectigo.New(config, logger)
status, err := connector.GetOrderStatus(ctx, "55002")
if err != nil {
t.Fatalf("GetOrderStatus failed: %v", err)
}
if status.Status != "pending" {
t.Errorf("Expected status 'pending', got '%s'", status.Status)
}
if status.CertPEM != nil {
t.Error("CertPEM should be nil for pending order")
}
})
t.Run("GetOrderStatus_Rejected", func(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
if r.URL.Path == "/ssl/v1/55003" {
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55003,"status":"Rejected"}`))
return
}
http.NotFound(w, r)
}))
defer srv.Close()
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
BaseURL: srv.URL,
}
connector := sectigo.New(config, logger)
status, err := connector.GetOrderStatus(ctx, "55003")
if err != nil {
t.Fatalf("GetOrderStatus failed: %v", err)
}
if status.Status != "failed" {
t.Errorf("Expected status 'failed', got '%s'", status.Status)
}
})
t.Run("GetOrderStatus_CollectNotReady", func(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch r.URL.Path {
case "/ssl/v1/55004":
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55004,"status":"Issued","commonName":"pending-collect.example.com"}`))
case "/ssl/v1/collect/55004/pem":
// Sectigo returns 400 with code -183 when cert not yet generated
w.WriteHeader(http.StatusBadRequest)
w.Write([]byte(`{"code":-183,"description":"Certificate is not available"}`))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
BaseURL: srv.URL,
}
connector := sectigo.New(config, logger)
status, err := connector.GetOrderStatus(ctx, "55004")
if err != nil {
t.Fatalf("GetOrderStatus failed: %v", err)
}
// Should be treated as pending (cert approved but not yet generated)
if status.Status != "pending" {
t.Errorf("Expected status 'pending' for collect-not-ready, got '%s'", status.Status)
}
})
t.Run("RenewCertificate_NewOrder", func(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
switch r.URL.Path {
case "/ssl/v1/enroll":
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55010}`))
case "/ssl/v1/55010":
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55010,"status":"Applied"}`))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
CertType: 423,
Term: 365,
BaseURL: srv.URL,
}
connector := sectigo.New(config, logger)
_, csrPEM := generateTestCSR(t, "renew.example.com")
renewReq := issuer.RenewalRequest{
CommonName: "renew.example.com",
CSRPEM: csrPEM,
}
result, err := connector.RenewCertificate(ctx, renewReq)
if err != nil {
t.Fatalf("RenewCertificate failed: %v", err)
}
if result.OrderID == "" {
t.Error("OrderID should not be empty")
}
})
t.Run("RevokeCertificate_Success", func(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
if strings.HasPrefix(r.URL.Path, "/ssl/v1/revoke/") && r.Method == http.MethodPost {
// Verify auth headers
if r.Header.Get("customerUri") == "" {
t.Error("Missing customerUri header on revoke request")
}
if r.Header.Get("login") == "" {
t.Error("Missing login header on revoke request")
}
if r.Header.Get("password") == "" {
t.Error("Missing password header on revoke request")
}
// Verify reason in body
body, _ := io.ReadAll(r.Body)
var req map[string]interface{}
json.Unmarshal(body, &req)
if req["reason"] == nil {
t.Error("Expected reason in revoke request body")
}
w.WriteHeader(http.StatusNoContent)
return
}
http.NotFound(w, r)
}))
defer srv.Close()
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
BaseURL: srv.URL,
}
connector := sectigo.New(config, logger)
reason := "keyCompromise"
revokeReq := issuer.RevocationRequest{
Serial: "55001",
Reason: &reason,
}
err := connector.RevokeCertificate(ctx, revokeReq)
if err != nil {
t.Fatalf("RevokeCertificate failed: %v", err)
}
})
t.Run("RevokeCertificate_Error", func(t *testing.T) {
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
w.WriteHeader(http.StatusBadRequest)
w.Write([]byte(`{"code":-1,"description":"Certificate not found"}`))
}))
defer srv.Close()
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
BaseURL: srv.URL,
}
connector := sectigo.New(config, logger)
revokeReq := issuer.RevocationRequest{
Serial: "00000",
}
err := connector.RevokeCertificate(ctx, revokeReq)
if err == nil {
t.Fatal("Expected error for revocation of nonexistent cert")
}
})
t.Run("GetRenewalInfo_ReturnsNil", func(t *testing.T) {
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
BaseURL: "https://cert-manager.com/api",
}
connector := sectigo.New(config, logger)
result, err := connector.GetRenewalInfo(ctx, "-----BEGIN CERTIFICATE-----\ntest\n-----END CERTIFICATE-----")
if err != nil {
t.Fatalf("GetRenewalInfo should not return error, got: %v", err)
}
if result != nil {
t.Fatal("GetRenewalInfo should return nil for Sectigo")
}
})
t.Run("DefaultTerm", func(t *testing.T) {
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
CertType: 423,
// Term intentionally left as 0
}
connector := sectigo.New(config, logger)
// Verify the connector was created (the default is set in New())
if connector == nil {
t.Fatal("Connector should not be nil")
}
// Verify via a request that uses the term
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
if r.URL.Path == "/ssl/v1/enroll" {
body, _ := io.ReadAll(r.Body)
var req map[string]interface{}
json.Unmarshal(body, &req)
// Default term should be 365
if term, ok := req["term"].(float64); ok {
if int(term) != 365 {
t.Errorf("Expected default term 365, got %d", int(term))
}
}
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55099}`))
return
}
if r.URL.Path == "/ssl/v1/55099" {
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55099,"status":"Applied"}`))
return
}
http.NotFound(w, r)
}))
defer srv.Close()
// Reconfigure with test server URL
config.BaseURL = srv.URL
connector = sectigo.New(config, logger)
_, csrPEM := generateTestCSR(t, "test.example.com")
req := issuer.IssuanceRequest{
CommonName: "test.example.com",
CSRPEM: csrPEM,
}
result, err := connector.IssueCertificate(ctx, req)
if err != nil {
t.Fatalf("IssueCertificate with default term failed: %v", err)
}
if result.OrderID == "" {
t.Error("OrderID should not be empty")
}
})
t.Run("AuthHeaders_PresentOnAllRequests", func(t *testing.T) {
requestCount := 0
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
requestCount++
// Every single request must have all 3 auth headers
if r.Header.Get("customerUri") != "verify-org" {
t.Errorf("Request %d: expected customerUri 'verify-org', got '%s'", requestCount, r.Header.Get("customerUri"))
}
if r.Header.Get("login") != "verify-user" {
t.Errorf("Request %d: expected login 'verify-user', got '%s'", requestCount, r.Header.Get("login"))
}
if r.Header.Get("password") != "verify-pass" {
t.Errorf("Request %d: expected password 'verify-pass', got '%s'", requestCount, r.Header.Get("password"))
}
switch r.URL.Path {
case "/ssl/v1/enroll":
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55050}`))
case "/ssl/v1/55050":
w.WriteHeader(http.StatusOK)
w.Write([]byte(`{"sslId":55050,"status":"Applied"}`))
default:
http.NotFound(w, r)
}
}))
defer srv.Close()
config := &sectigo.Config{
CustomerURI: "verify-org",
Login: "verify-user",
Password: "verify-pass",
OrgID: 12345,
CertType: 423,
Term: 365,
BaseURL: srv.URL,
}
connector := sectigo.New(config, logger)
_, csrPEM := generateTestCSR(t, "auth-check.example.com")
req := issuer.IssuanceRequest{
CommonName: "auth-check.example.com",
CSRPEM: csrPEM,
}
_, err := connector.IssueCertificate(ctx, req)
if err != nil {
t.Fatalf("IssueCertificate failed: %v", err)
}
if requestCount < 2 {
t.Errorf("Expected at least 2 requests (enroll + status), got %d", requestCount)
}
})
t.Run("RevocationReasonMapping", func(t *testing.T) {
tests := []struct {
input string
expected string
}{
{"keyCompromise", "Compromised"},
{"cessationOfOperation", "Cessation of Operation"},
{"affiliationChanged", "Affiliation Changed"},
{"superseded", "Superseded"},
{"unspecified", "Unspecified"},
{"unknown_reason", "Unspecified"},
}
for _, tt := range tests {
t.Run(tt.input, func(t *testing.T) {
var receivedReason string
srv := httptest.NewServer(http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
if strings.HasPrefix(r.URL.Path, "/ssl/v1/revoke/") {
body, _ := io.ReadAll(r.Body)
var req map[string]interface{}
json.Unmarshal(body, &req)
receivedReason = req["reason"].(string)
w.WriteHeader(http.StatusNoContent)
return
}
http.NotFound(w, r)
}))
defer srv.Close()
config := &sectigo.Config{
CustomerURI: "test-org",
Login: "api-user",
Password: "api-pass",
OrgID: 12345,
BaseURL: srv.URL,
}
connector := sectigo.New(config, logger)
reason := tt.input
err := connector.RevokeCertificate(ctx, issuer.RevocationRequest{
Serial: "12345",
Reason: &reason,
})
if err != nil {
t.Fatalf("RevokeCertificate failed: %v", err)
}
if receivedReason != tt.expected {
t.Errorf("Expected reason '%s', got '%s'", tt.expected, receivedReason)
}
})
}
})
}
// generateTestCert creates a self-signed test certificate and returns the PEM strings.
func generateTestCert(t *testing.T) (certPEM string, keyPEM string) {
t.Helper()
key, err := rsa.GenerateKey(rand.Reader, 2048)
if err != nil {
t.Fatalf("Failed to generate key: %v", err)
}
serial, _ := rand.Int(rand.Reader, new(big.Int).Lsh(big.NewInt(1), 128))
template := &x509.Certificate{
SerialNumber: serial,
Subject: pkix.Name{
CommonName: fmt.Sprintf("Test Certificate %s", serial.String()[:8]),
},
DNSNames: []string{"test.example.com"},
KeyUsage: x509.KeyUsageDigitalSignature,
ExtKeyUsage: []x509.ExtKeyUsage{x509.ExtKeyUsageServerAuth},
BasicConstraintsValid: true,
}
certBytes, err := x509.CreateCertificate(rand.Reader, template, template, &key.PublicKey, key)
if err != nil {
t.Fatalf("Failed to create certificate: %v", err)
}
certPEM = string(pem.EncodeToMemory(&pem.Block{Type: "CERTIFICATE", Bytes: certBytes}))
keyPEM = string(pem.EncodeToMemory(&pem.Block{Type: "RSA PRIVATE KEY", Bytes: x509.MarshalPKCS1PrivateKey(key)}))
return certPEM, keyPEM
}
// generateTestCSR creates a test CSR for the given common name.
func generateTestCSR(t *testing.T, commonName string) (*x509.CertificateRequest, string) {
t.Helper()
key, err := rsa.GenerateKey(rand.Reader, 2048)
if err != nil {
t.Fatalf("Failed to generate key: %v", err)
}
csrTemplate := x509.CertificateRequest{
Subject: pkix.Name{
CommonName: commonName,
},
DNSNames: []string{commonName},
SignatureAlgorithm: x509.SHA256WithRSA,
}
csrBytes, err := x509.CreateCertificateRequest(rand.Reader, &csrTemplate, key)
if err != nil {
t.Fatalf("Failed to create CSR: %v", err)
}
csrPEM := string(pem.EncodeToMemory(&pem.Block{
Type: "CERTIFICATE REQUEST",
Bytes: csrBytes,
}))
csr, err := x509.ParseCertificateRequest(csrBytes)
if err != nil {
t.Fatalf("Failed to parse CSR: %v", err)
}
return csr, csrPEM
}
internal/connector/issuer/stepca/jwe.go
+264
View File
@@ -0,0 +1,264 @@
// Package stepca — JWE decryption for step-ca provisioner keys.
//
// step-ca stores provisioner private keys as JWE-encrypted JSON files using:
// - Algorithm: PBES2-HS256+A128KW (PBKDF2 key derivation + AES-128 Key Wrap)
// - Encryption: A128GCM (AES-128 in GCM mode)
//
// This file implements just enough JWE to decrypt these files without requiring
// an external JOSE library. Uses only stdlib + golang.org/x/crypto/pbkdf2.
package stepca
import (
"crypto/aes"
"crypto/cipher"
"crypto/ecdsa"
"crypto/elliptic"
"crypto/sha256"
"encoding/base64"
"encoding/binary"
"encoding/json"
"fmt"
"math/big"
"golang.org/x/crypto/pbkdf2"
)
// jweJSON is the JWE JSON Serialization format used by step-ca provisioner keys.
type jweJSON struct {
Protected string `json:"protected"`
EncryptedKey string `json:"encrypted_key"`
IV string `json:"iv"`
Ciphertext string `json:"ciphertext"`
Tag string `json:"tag"`
}
// jweHeader is the protected header inside a step-ca provisioner key JWE.
type jweHeader struct {
Alg string `json:"alg"` // "PBES2-HS256+A128KW"
Enc string `json:"enc"` // "A128GCM"
Cty string `json:"cty"` // "jwk+json"
P2s string `json:"p2s"` // PBKDF2 salt (base64url)
P2c int `json:"p2c"` // PBKDF2 iteration count
}
// jwkEC is a minimal JWK representation for EC private keys.
type jwkEC struct {
Kty string `json:"kty"`
Crv string `json:"crv"`
X string `json:"x"`
Y string `json:"y"`
D string `json:"d"`
Kid string `json:"kid"`
}
// decryptProvisionerKey decrypts a step-ca JWE-encrypted provisioner key file.
// Returns the parsed ECDSA private key and the key ID (kid).
func decryptProvisionerKey(jweData []byte, password string) (*ecdsa.PrivateKey, string, error) {
// Parse JWE JSON
var jwe jweJSON
if err := json.Unmarshal(jweData, &jwe); err != nil {
return nil, "", fmt.Errorf("failed to parse JWE JSON: %w", err)
}
// Decode protected header
headerBytes, err := base64.RawURLEncoding.DecodeString(jwe.Protected)
if err != nil {
return nil, "", fmt.Errorf("failed to decode JWE protected header: %w", err)
}
var header jweHeader
if err := json.Unmarshal(headerBytes, &header); err != nil {
return nil, "", fmt.Errorf("failed to parse JWE header: %w", err)
}
if header.Alg != "PBES2-HS256+A128KW" {
return nil, "", fmt.Errorf("unsupported JWE algorithm: %s (expected PBES2-HS256+A128KW)", header.Alg)
}
if header.Enc != "A128GCM" && header.Enc != "A256GCM" {
return nil, "", fmt.Errorf("unsupported JWE encryption: %s (expected A128GCM or A256GCM)", header.Enc)
}
// Decode PBKDF2 salt
p2sSalt, err := base64.RawURLEncoding.DecodeString(header.P2s)
if err != nil {
return nil, "", fmt.Errorf("failed to decode PBKDF2 salt: %w", err)
}
// Decode encrypted key, IV, ciphertext, tag
encryptedKey, err := base64.RawURLEncoding.DecodeString(jwe.EncryptedKey)
if err != nil {
return nil, "", fmt.Errorf("failed to decode encrypted key: %w", err)
}
iv, err := base64.RawURLEncoding.DecodeString(jwe.IV)
if err != nil {
return nil, "", fmt.Errorf("failed to decode IV: %w", err)
}
ciphertext, err := base64.RawURLEncoding.DecodeString(jwe.Ciphertext)
if err != nil {
return nil, "", fmt.Errorf("failed to decode ciphertext: %w", err)
}
tag, err := base64.RawURLEncoding.DecodeString(jwe.Tag)
if err != nil {
return nil, "", fmt.Errorf("failed to decode tag: %w", err)
}
// Step 1: Derive Key Encryption Key (KEK) using PBKDF2
// PBES2-HS256+A128KW: PBKDF2-SHA256, 16-byte derived key for AES-128 Key Wrap
// The salt for PBKDF2 is: UTF8(alg) || 0x00 || p2s
algBytes := []byte(header.Alg)
salt := make([]byte, len(algBytes)+1+len(p2sSalt))
copy(salt, algBytes)
salt[len(algBytes)] = 0x00
copy(salt[len(algBytes)+1:], p2sSalt)
kekSize := 16 // AES-128 for A128KW
kek := pbkdf2.Key([]byte(password), salt, header.P2c, kekSize, sha256.New)
// Step 2: AES Key Unwrap (RFC 3394) to get the Content Encryption Key (CEK)
cek, err := aesKeyUnwrap(kek, encryptedKey)
if err != nil {
return nil, "", fmt.Errorf("AES key unwrap failed (wrong password?): %w", err)
}
// Step 3: AES-GCM decrypt the payload
// AAD = ASCII(BASE64URL(protected header))
aad := []byte(jwe.Protected)
block, err := aes.NewCipher(cek)
if err != nil {
return nil, "", fmt.Errorf("failed to create AES cipher: %w", err)
}
gcm, err := cipher.NewGCM(block)
if err != nil {
return nil, "", fmt.Errorf("failed to create GCM: %w", err)
}
// GCM expects ciphertext+tag concatenated
sealed := append(ciphertext, tag...)
plaintext, err := gcm.Open(nil, iv, sealed, aad)
if err != nil {
return nil, "", fmt.Errorf("GCM decryption failed: %w", err)
}
// Step 4: Parse the decrypted JWK
var jwk jwkEC
if err := json.Unmarshal(plaintext, &jwk); err != nil {
return nil, "", fmt.Errorf("failed to parse decrypted JWK: %w", err)
}
if jwk.Kty != "EC" {
return nil, "", fmt.Errorf("unsupported JWK key type: %s (expected EC)", jwk.Kty)
}
key, err := jwkToECDSA(&jwk)
if err != nil {
return nil, "", err
}
return key, jwk.Kid, nil
}
// jwkToECDSA converts a JWK EC key to an *ecdsa.PrivateKey.
func jwkToECDSA(jwk *jwkEC) (*ecdsa.PrivateKey, error) {
var curve elliptic.Curve
switch jwk.Crv {
case "P-256":
curve = elliptic.P256()
case "P-384":
curve = elliptic.P384()
case "P-521":
curve = elliptic.P521()
default:
return nil, fmt.Errorf("unsupported curve: %s", jwk.Crv)
}
xBytes, err := base64.RawURLEncoding.DecodeString(jwk.X)
if err != nil {
return nil, fmt.Errorf("failed to decode JWK x: %w", err)
}
yBytes, err := base64.RawURLEncoding.DecodeString(jwk.Y)
if err != nil {
return nil, fmt.Errorf("failed to decode JWK y: %w", err)
}
dBytes, err := base64.RawURLEncoding.DecodeString(jwk.D)
if err != nil {
return nil, fmt.Errorf("failed to decode JWK d: %w", err)
}
key := &ecdsa.PrivateKey{
PublicKey: ecdsa.PublicKey{
Curve: curve,
X: new(big.Int).SetBytes(xBytes),
Y: new(big.Int).SetBytes(yBytes),
},
D: new(big.Int).SetBytes(dBytes),
}
return key, nil
}
// aesKeyUnwrap implements AES Key Unwrap per RFC 3394.
func aesKeyUnwrap(kek, ciphertext []byte) ([]byte, error) {
if len(ciphertext)%8 != 0 || len(ciphertext) < 24 {
return nil, fmt.Errorf("invalid ciphertext length for AES Key Unwrap: %d", len(ciphertext))
}
block, err := aes.NewCipher(kek)
if err != nil {
return nil, fmt.Errorf("failed to create AES cipher: %w", err)
}
n := (len(ciphertext) / 8) - 1 // number of 64-bit key data blocks
// Initialize
a := make([]byte, 8)
copy(a, ciphertext[:8])
r := make([][]byte, n)
for i := 0; i < n; i++ {
r[i] = make([]byte, 8)
copy(r[i], ciphertext[(i+1)*8:(i+2)*8])
}
// Unwrap: 6 rounds
buf := make([]byte, 16)
for j := 5; j >= 0; j-- {
for i := n; i >= 1; i-- {
// A ^= (n*j + i) encoded as big-endian uint64
t := uint64(n*j + i)
tBytes := make([]byte, 8)
binary.BigEndian.PutUint64(tBytes, t)
for k := 0; k < 8; k++ {
a[k] ^= tBytes[k]
}
// B = AES-1(KEK, A || R[i])
copy(buf[:8], a)
copy(buf[8:], r[i-1])
block.Decrypt(buf, buf)
copy(a, buf[:8])
copy(r[i-1], buf[8:])
}
}
// Check the integrity check value (must be 0xA6A6A6A6A6A6A6A6)
defaultIV := []byte{0xA6, 0xA6, 0xA6, 0xA6, 0xA6, 0xA6, 0xA6, 0xA6}
for i := 0; i < 8; i++ {
if a[i] != defaultIV[i] {
return nil, fmt.Errorf("AES Key Unwrap integrity check failed")
}
}
// Concatenate unwrapped key data
result := make([]byte, 0, n*8)
for i := 0; i < n; i++ {
result = append(result, r[i]...)
}
return result, nil
}
internal/connector/issuer/stepca/stepca.go
+105 -35
View File
@@ -27,6 +27,7 @@ import (
"crypto/elliptic"
"crypto/rand"
"crypto/sha256"
"crypto/tls"
"crypto/x509"
"encoding/base64"
"encoding/json"
@@ -74,17 +75,37 @@ type Connector struct {
}
// New creates a new step-ca connector with the given configuration and logger.
// If RootCertPath is set, the HTTP client will trust that CA certificate for TLS connections.
// Otherwise, the system trust store is used (which works if setup-trust.sh has run).
func New(config *Config, logger *slog.Logger) *Connector {
if config != nil && config.ValidityDays == 0 {
config.ValidityDays = 90
// Don't default ValidityDays — let step-ca use its own default duration.
// Operators can explicitly set ValidityDays if their step-ca is configured
// with longer max durations. A zero value means "omit from sign request."
httpClient := &http.Client{Timeout: 30 * time.Second}
// Load custom root CA cert if provided
if config != nil && config.RootCertPath != "" {
rootPEM, err := os.ReadFile(config.RootCertPath)
if err == nil {
pool := x509.NewCertPool()
if pool.AppendCertsFromPEM(rootPEM) {
httpClient.Transport = &http.Transport{
TLSClientConfig: &tls.Config{
RootCAs: pool,
},
}
logger.Info("step-ca custom root CA loaded", "path", config.RootCertPath)
}
} else {
logger.Warn("failed to read step-ca root cert, using system trust store", "path", config.RootCertPath, "error", err)
}
}
return &Connector{
config: config,
logger: logger,
httpClient: &http.Client{
Timeout: 30 * time.Second,
},
config: config,
logger: logger,
httpClient: httpClient,
}
}
@@ -103,9 +124,7 @@ func (c *Connector) ValidateConfig(ctx context.Context, rawConfig json.RawMessag
return fmt.Errorf("step-ca provisioner_name is required")
}
if cfg.ValidityDays == 0 {
cfg.ValidityDays = 90
}
// Don't default ValidityDays — 0 means "let step-ca use its own default duration"
// Check CA health
healthURL := cfg.CAURL + "/health"
@@ -174,15 +193,18 @@ func (c *Connector) IssueCertificate(ctx context.Context, request issuer.Issuanc
return nil, fmt.Errorf("failed to generate provisioner token: %w", err)
}
// Build the sign request
now := time.Now()
notAfter := now.AddDate(0, 0, c.config.ValidityDays)
// Build the sign request.
// When ValidityDays is 0 (default), omit NotBefore/NotAfter so step-ca uses its
// own default duration (typically 24h). The signRequest struct has omitempty on
// both time fields, so zero-value time.Time{} gets stripped from the JSON.
signReq := signRequest{
CsrPEM: request.CSRPEM,
OTT: ott,
NotBefore: now,
NotAfter: notAfter,
CsrPEM: request.CSRPEM,
OTT: ott,
}
if c.config.ValidityDays > 0 {
now := time.Now()
signReq.NotBefore = now
signReq.NotAfter = now.AddDate(0, 0, c.config.ValidityDays)
}
body, err := json.Marshal(signReq)
@@ -318,39 +340,80 @@ func (c *Connector) GetOrderStatus(ctx context.Context, orderID string) (*issuer
}
// generateProvisionerToken creates a short-lived JWT (One-Time Token) for step-ca API calls.
// This is a minimal JWT signed with the provisioner's key.
// The JWT is signed with the provisioner's private key (loaded from the encrypted JWE file
// at ProvisionerKeyPath and decrypted with ProvisionerPassword).
func (c *Connector) generateProvisionerToken(subject string, sans []string) (string, error) {
// For the initial implementation, we generate a simple self-signed JWT.
// In production, the provisioner key would be loaded from the configured path.
// step-ca expects a JWT with: sub=<CN>, iss=<provisioner>, aud=<ca-url>/sign
var key *ecdsa.PrivateKey
var kid string
if c.config.ProvisionerKeyPath != "" {
// Production: load and decrypt the real provisioner key from disk
var err error
key, kid, err = c.loadProvisionerKey()
if err != nil {
return "", fmt.Errorf("failed to load provisioner key: %w", err)
}
} else {
// Fallback: generate an ephemeral key (for testing or when key path not configured).
// This won't authenticate with a real step-ca server, but allows the connector
// to function against mock servers in tests.
c.logger.Warn("no provisioner key path configured, using ephemeral key (will not work with real step-ca)")
var err error
key, err = ecdsa.GenerateKey(elliptic.P256(), rand.Reader)
if err != nil {
return "", fmt.Errorf("failed to generate ephemeral key: %w", err)
}
kid = "ephemeral"
}
now := time.Now()
// step-ca expects: aud = <ca-url>/1.0/sign (the sign endpoint audience)
claims := map[string]interface{}{
"sub": subject,
"iss": c.config.ProvisionerName,
"aud": c.config.CAURL + "/sign",
"aud": c.config.CAURL + "/1.0/sign",
"nbf": now.Unix(),
"iat": now.Unix(),
"exp": now.Add(5 * time.Minute).Unix(),
"jti": generateJTI(),
"sha": c.config.ProvisionerName, // step-ca uses this for key lookup
"sha": kid, // step-ca uses this to look up the provisioner by key fingerprint
}
if len(sans) > 0 {
claims["sans"] = sans
}
// Generate an ephemeral signing key for the token.
// In a full implementation, this would use the provisioner key from disk.
// For now, we use an ephemeral key — step-ca administrators should configure
// the provisioner to accept tokens from this key.
key, err := ecdsa.GenerateKey(elliptic.P256(), rand.Reader)
if err != nil {
return "", fmt.Errorf("failed to generate token signing key: %w", err)
return signJWTWithKID(claims, key, kid)
}
// loadProvisionerKey loads and decrypts the step-ca provisioner key from disk.
// Returns the ECDSA private key and the key ID (JWK thumbprint).
func (c *Connector) loadProvisionerKey() (*ecdsa.PrivateKey, string, error) {
if c.config.ProvisionerKeyPath == "" {
return nil, "", fmt.Errorf("provisioner_key_path is required for step-ca JWK authentication")
}
return signJWT(claims, key)
jweData, err := os.ReadFile(c.config.ProvisionerKeyPath)
if err != nil {
return nil, "", fmt.Errorf("failed to read provisioner key file %s: %w", c.config.ProvisionerKeyPath, err)
}
password := c.config.ProvisionerPassword
if password == "" {
return nil, "", fmt.Errorf("provisioner_password is required to decrypt the provisioner key")
}
key, kid, err := decryptProvisionerKey(jweData, password)
if err != nil {
return nil, "", fmt.Errorf("failed to decrypt provisioner key: %w", err)
}
c.logger.Info("provisioner key loaded and decrypted",
"key_path", c.config.ProvisionerKeyPath,
"kid", kid)
return key, kid, nil
}
// generateJTI creates a unique JWT ID.
@@ -360,14 +423,21 @@ func generateJTI() string {
return base64.RawURLEncoding.EncodeToString(b)
}
// signJWT creates a minimal ES256 JWT from the given claims.
func signJWT(claims map[string]interface{}, key *ecdsa.PrivateKey) (string, error) {
// Header
// signJWTWithKID creates an ES256 JWT with a key ID in the header.
func signJWTWithKID(claims map[string]interface{}, key *ecdsa.PrivateKey, kid string) (string, error) {
// Header with kid so step-ca can look up the provisioner
header := map[string]string{
"alg": "ES256",
"typ": "JWT",
"kid": kid,
}
return signJWTRaw(claims, key, header)
}
// signJWTRaw creates an ES256 JWT from the given claims and header.
func signJWTRaw(claims map[string]interface{}, key *ecdsa.PrivateKey, header map[string]string) (string, error) {
headerJSON, err := json.Marshal(header)
if err != nil {
return "", err
internal/connector/target/envoy/envoy.go
+318
View File
@@ -0,0 +1,318 @@
package envoy
import (
"context"
"encoding/json"
"fmt"
"log/slog"
"os"
"path/filepath"
"strings"
"time"
"github.com/shankar0123/certctl/internal/connector/target"
)
// Config represents the Envoy deployment target configuration.
// Envoy uses file-based certificate delivery — the agent writes cert/key files
// to a directory that Envoy watches via its SDS (Secret Discovery Service)
// file-based configuration or static filename references in the bootstrap config.
type Config struct {
CertDir string `json:"cert_dir"` // Directory where Envoy watches for cert files (required)
CertFilename string `json:"cert_filename"` // Filename for certificate (default: cert.pem)
KeyFilename string `json:"key_filename"` // Filename for private key (default: key.pem)
ChainFilename string `json:"chain_filename"` // Optional filename for chain (if set, chain written separately)
SDSConfig bool `json:"sds_config"` // If true, write an SDS discovery JSON file for file-based SDS
}
// SDSResource represents an Envoy SDS tls_certificate resource for file-based SDS.
// This matches Envoy's expected format for file-based Secret Discovery Service.
type SDSResource struct {
Resources []SDSTLSCertificate `json:"resources"`
}
// SDSTLSCertificate represents a single SDS tls_certificate entry.
type SDSTLSCertificate struct {
Type string `json:"@type"`
Name string `json:"name"`
TLSCertificate TLSCertificate `json:"tls_certificate"`
}
// TLSCertificate contains the file paths for cert and key in Envoy's SDS format.
type TLSCertificate struct {
CertificateChain DataSource `json:"certificate_chain"`
PrivateKey DataSource `json:"private_key"`
}
// DataSource represents an Envoy data source pointing to a file path.
type DataSource struct {
Filename string `json:"filename"`
}
// Connector implements the target.Connector interface for Envoy proxy servers.
// This connector runs on the AGENT side and handles local certificate deployment.
// Envoy watches the configured directory via its file-based SDS or static config
// and automatically picks up certificate changes without an explicit reload.
type Connector struct {
config *Config
logger *slog.Logger
}
// New creates a new Envoy target connector with the given configuration and logger.
func New(config *Config, logger *slog.Logger) *Connector {
return &Connector{
config: config,
logger: logger,
}
}
// ValidateConfig checks that the certificate directory is configured and valid.
func (c *Connector) ValidateConfig(ctx context.Context, rawConfig json.RawMessage) error {
var cfg Config
if err := json.Unmarshal(rawConfig, &cfg); err != nil {
return fmt.Errorf("invalid Envoy config: %w", err)
}
if cfg.CertDir == "" {
return fmt.Errorf("Envoy cert_dir is required")
}
// Default filenames if not provided
if cfg.CertFilename == "" {
cfg.CertFilename = "cert.pem"
}
if cfg.KeyFilename == "" {
cfg.KeyFilename = "key.pem"
}
// Validate filenames don't contain path separators (prevent path traversal)
if strings.Contains(cfg.CertFilename, "/") || strings.Contains(cfg.CertFilename, "\\") {
return fmt.Errorf("Envoy cert_filename must not contain path separators")
}
if strings.Contains(cfg.KeyFilename, "/") || strings.Contains(cfg.KeyFilename, "\\") {
return fmt.Errorf("Envoy key_filename must not contain path separators")
}
if cfg.ChainFilename != "" && (strings.Contains(cfg.ChainFilename, "/") || strings.Contains(cfg.ChainFilename, "\\")) {
return fmt.Errorf("Envoy chain_filename must not contain path separators")
}
c.logger.Info("validating Envoy configuration",
"cert_dir", cfg.CertDir,
"cert_filename", cfg.CertFilename,
"key_filename", cfg.KeyFilename,
"chain_filename", cfg.ChainFilename,
"sds_config", cfg.SDSConfig)
// Verify directory exists and is writable
if _, err := os.Stat(cfg.CertDir); os.IsNotExist(err) {
return fmt.Errorf("Envoy cert directory does not exist: %s", cfg.CertDir)
}
// Try to write a test file to verify directory is writable
testFile := filepath.Join(cfg.CertDir, ".certctl-write-test")
if err := os.WriteFile(testFile, []byte("test"), 0644); err != nil {
return fmt.Errorf("Envoy cert directory is not writable: %s (%w)", cfg.CertDir, err)
}
os.Remove(testFile)
c.config = &cfg
c.logger.Info("Envoy configuration validated")
return nil
}
// DeployCertificate writes the certificate and key files to the configured directory.
// Envoy watches this directory via file-based SDS or static config references
// and automatically picks up changes without requiring a reload command.
//
// Steps:
// 1. Write certificate (+ chain if chain_filename not set) to cert_filename with mode 0644
// 2. Write private key to key_filename with mode 0600
// 3. If chain_filename set and chain provided, write chain separately with mode 0644
// 4. If sds_config is true, write SDS JSON file pointing to cert/key paths
func (c *Connector) DeployCertificate(ctx context.Context, request target.DeploymentRequest) (*target.DeploymentResult, error) {
c.logger.Info("deploying certificate to Envoy",
"cert_dir", c.config.CertDir,
"cert_filename", c.config.CertFilename,
"key_filename", c.config.KeyFilename)
startTime := time.Now()
certPath := filepath.Join(c.config.CertDir, c.config.CertFilename)
keyPath := filepath.Join(c.config.CertDir, c.config.KeyFilename)
// Build certificate data: if chain_filename is set, write chain separately;
// otherwise append chain to cert file (standard fullchain behavior)
certData := request.CertPEM + "\n"
if request.ChainPEM != "" && c.config.ChainFilename == "" {
certData += request.ChainPEM + "\n"
}
// Write certificate with mode 0644 (readable by Envoy process)
if err := os.WriteFile(certPath, []byte(certData), 0644); err != nil {
errMsg := fmt.Sprintf("failed to write certificate: %v", err)
c.logger.Error("certificate deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: certPath,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Write private key with secure permissions (0600: rw-------)
if request.KeyPEM != "" {
if err := os.WriteFile(keyPath, []byte(request.KeyPEM), 0600); err != nil {
errMsg := fmt.Sprintf("failed to write private key: %v", err)
c.logger.Error("key deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: keyPath,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
}
// Write chain separately if chain_filename is configured
if c.config.ChainFilename != "" && request.ChainPEM != "" {
chainPath := filepath.Join(c.config.CertDir, c.config.ChainFilename)
if err := os.WriteFile(chainPath, []byte(request.ChainPEM+"\n"), 0644); err != nil {
errMsg := fmt.Sprintf("failed to write chain: %v", err)
c.logger.Error("chain deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: chainPath,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
}
// Write SDS JSON file if configured
if c.config.SDSConfig {
if err := c.writeSDSConfig(); err != nil {
errMsg := fmt.Sprintf("failed to write SDS config: %v", err)
c.logger.Error("SDS config deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: certPath,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
}
deploymentDuration := time.Since(startTime)
c.logger.Info("certificate deployed to Envoy successfully",
"duration", deploymentDuration.String(),
"cert_path", certPath,
"key_path", keyPath,
"sds_config", c.config.SDSConfig)
metadata := map[string]string{
"cert_path": certPath,
"key_path": keyPath,
"duration_ms": fmt.Sprintf("%d", deploymentDuration.Milliseconds()),
}
if c.config.SDSConfig {
metadata["sds_config_path"] = filepath.Join(c.config.CertDir, "sds.json")
}
return &target.DeploymentResult{
Success: true,
TargetAddress: certPath,
DeploymentID: fmt.Sprintf("envoy-%d", time.Now().Unix()),
Message: "Certificate deployed to Envoy (file-based SDS will auto-reload)",
DeployedAt: time.Now(),
Metadata: metadata,
}, nil
}
// writeSDSConfig writes an Envoy SDS JSON file that references the cert/key file paths.
// This file is consumed by Envoy's file-based SDS provider (path_config_source).
func (c *Connector) writeSDSConfig() error {
certPath := filepath.Join(c.config.CertDir, c.config.CertFilename)
keyPath := filepath.Join(c.config.CertDir, c.config.KeyFilename)
sdsResource := SDSResource{
Resources: []SDSTLSCertificate{
{
Type: "type.googleapis.com/envoy.extensions.transport_sockets.tls.v3.Secret",
Name: "server_cert",
TLSCertificate: TLSCertificate{
CertificateChain: DataSource{Filename: certPath},
PrivateKey: DataSource{Filename: keyPath},
},
},
},
}
sdsJSON, err := json.MarshalIndent(sdsResource, "", " ")
if err != nil {
return fmt.Errorf("failed to marshal SDS config: %w", err)
}
sdsPath := filepath.Join(c.config.CertDir, "sds.json")
if err := os.WriteFile(sdsPath, sdsJSON, 0644); err != nil {
return fmt.Errorf("failed to write SDS config file: %w", err)
}
c.logger.Info("SDS config file written", "path", sdsPath)
return nil
}
// ValidateDeployment verifies that the deployed certificate files are readable.
// It checks that both the certificate and key files exist and are accessible.
func (c *Connector) ValidateDeployment(ctx context.Context, request target.ValidationRequest) (*target.ValidationResult, error) {
c.logger.Info("validating Envoy deployment",
"certificate_id", request.CertificateID,
"serial", request.Serial)
startTime := time.Now()
certPath := filepath.Join(c.config.CertDir, c.config.CertFilename)
keyPath := filepath.Join(c.config.CertDir, c.config.KeyFilename)
// Verify certificate file exists and is readable
if _, err := os.Stat(certPath); os.IsNotExist(err) {
errMsg := fmt.Sprintf("certificate file not found: %s", certPath)
c.logger.Error("validation failed", "error", err)
return &target.ValidationResult{
Valid: false,
Serial: request.Serial,
TargetAddress: certPath,
Message: errMsg,
ValidatedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Verify key file exists and is readable
if _, err := os.Stat(keyPath); os.IsNotExist(err) {
errMsg := fmt.Sprintf("private key file not found: %s", keyPath)
c.logger.Error("validation failed", "error", err)
return &target.ValidationResult{
Valid: false,
Serial: request.Serial,
TargetAddress: keyPath,
Message: errMsg,
ValidatedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
validationDuration := time.Since(startTime)
c.logger.Info("Envoy deployment validated successfully",
"duration", validationDuration.String())
return &target.ValidationResult{
Valid: true,
Serial: request.Serial,
TargetAddress: certPath,
Message: "Certificate and key files accessible",
ValidatedAt: time.Now(),
Metadata: map[string]string{
"cert_path": certPath,
"key_path": keyPath,
"duration_ms": fmt.Sprintf("%d", validationDuration.Milliseconds()),
},
}, nil
}
internal/connector/target/envoy/envoy_test.go
+394
View File
@@ -0,0 +1,394 @@
package envoy_test
import (
"context"
"encoding/json"
"log/slog"
"os"
"path/filepath"
"testing"
"github.com/shankar0123/certctl/internal/connector/target"
"github.com/shankar0123/certctl/internal/connector/target/envoy"
)
func testLogger() *slog.Logger {
return slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
}
func TestEnvoyConnector_ValidateConfig_Success(t *testing.T) {
ctx := context.Background()
tmpDir := t.TempDir()
cfg := envoy.Config{
CertDir: tmpDir,
CertFilename: "cert.pem",
KeyFilename: "key.pem",
}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
if err := connector.ValidateConfig(ctx, rawConfig); err != nil {
t.Fatalf("ValidateConfig failed: %v", err)
}
}
func TestEnvoyConnector_ValidateConfig_InvalidJSON(t *testing.T) {
ctx := context.Background()
connector := envoy.New(&envoy.Config{}, testLogger())
if err := connector.ValidateConfig(ctx, json.RawMessage(`{invalid}`)); err == nil {
t.Fatal("expected error for invalid JSON")
}
}
func TestEnvoyConnector_ValidateConfig_MissingCertDir(t *testing.T) {
ctx := context.Background()
cfg := envoy.Config{CertFilename: "cert.pem", KeyFilename: "key.pem"}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
if err := connector.ValidateConfig(ctx, rawConfig); err == nil {
t.Fatal("expected error for missing cert_dir")
}
}
func TestEnvoyConnector_ValidateConfig_DirectoryNotExists(t *testing.T) {
ctx := context.Background()
cfg := envoy.Config{CertDir: "/nonexistent/directory"}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
if err := connector.ValidateConfig(ctx, rawConfig); err == nil {
t.Fatal("expected error for non-existent directory")
}
}
func TestEnvoyConnector_ValidateConfig_PathTraversal_CertFilename(t *testing.T) {
ctx := context.Background()
tmpDir := t.TempDir()
cfg := envoy.Config{CertDir: tmpDir, CertFilename: "../../../etc/passwd"}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
if err := connector.ValidateConfig(ctx, rawConfig); err == nil {
t.Fatal("expected error for path traversal in cert_filename")
}
}
func TestEnvoyConnector_ValidateConfig_PathTraversal_KeyFilename(t *testing.T) {
ctx := context.Background()
tmpDir := t.TempDir()
cfg := envoy.Config{CertDir: tmpDir, KeyFilename: "sub/key.pem"}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
if err := connector.ValidateConfig(ctx, rawConfig); err == nil {
t.Fatal("expected error for path traversal in key_filename")
}
}
func TestEnvoyConnector_ValidateConfig_PathTraversal_ChainFilename(t *testing.T) {
ctx := context.Background()
tmpDir := t.TempDir()
cfg := envoy.Config{CertDir: tmpDir, ChainFilename: "../chain.pem"}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
if err := connector.ValidateConfig(ctx, rawConfig); err == nil {
t.Fatal("expected error for path traversal in chain_filename")
}
}
func TestEnvoyConnector_ValidateConfig_DefaultFilenames(t *testing.T) {
ctx := context.Background()
tmpDir := t.TempDir()
cfg := envoy.Config{CertDir: tmpDir} // No filenames — should use defaults
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
if err := connector.ValidateConfig(ctx, rawConfig); err != nil {
t.Fatalf("ValidateConfig with defaults failed: %v", err)
}
}
func TestEnvoyConnector_DeployCertificate_Success(t *testing.T) {
ctx := context.Background()
tmpDir := t.TempDir()
cfg := envoy.Config{CertDir: tmpDir, CertFilename: "cert.pem", KeyFilename: "key.pem"}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
_ = connector.ValidateConfig(ctx, rawConfig)
request := target.DeploymentRequest{
CertPEM: "-----BEGIN CERTIFICATE-----\nMIIC...\n-----END CERTIFICATE-----",
KeyPEM: "-----BEGIN PRIVATE KEY-----\nMIIE...\n-----END PRIVATE KEY-----",
ChainPEM: "-----BEGIN CERTIFICATE-----\nCAcert...\n-----END CERTIFICATE-----",
}
result, err := connector.DeployCertificate(ctx, request)
if err != nil {
t.Fatalf("DeployCertificate failed: %v", err)
}
if !result.Success {
t.Fatalf("deployment should succeed, got: %s", result.Message)
}
// Verify cert file was created with chain appended (no chain_filename set)
certData, err := os.ReadFile(filepath.Join(tmpDir, "cert.pem"))
if err != nil {
t.Fatalf("failed to read cert file: %v", err)
}
if got := string(certData); got != "-----BEGIN CERTIFICATE-----\nMIIC...\n-----END CERTIFICATE-----\n-----BEGIN CERTIFICATE-----\nCAcert...\n-----END CERTIFICATE-----\n" {
t.Fatalf("cert content mismatch: got %q", got)
}
// Verify key file created with correct permissions
keyPath := filepath.Join(tmpDir, "key.pem")
keyInfo, err := os.Stat(keyPath)
if err != nil {
t.Fatalf("key file not found: %v", err)
}
if perms := keyInfo.Mode().Perm(); perms != 0600 {
t.Fatalf("key permissions are %o, expected 0600", perms)
}
}
func TestEnvoyConnector_DeployCertificate_WithoutChain(t *testing.T) {
ctx := context.Background()
tmpDir := t.TempDir()
cfg := envoy.Config{CertDir: tmpDir, CertFilename: "cert.pem", KeyFilename: "key.pem"}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
_ = connector.ValidateConfig(ctx, rawConfig)
request := target.DeploymentRequest{
CertPEM: "-----BEGIN CERTIFICATE-----\nMIIC...\n-----END CERTIFICATE-----",
KeyPEM: "-----BEGIN PRIVATE KEY-----\nMIIE...\n-----END PRIVATE KEY-----",
}
result, err := connector.DeployCertificate(ctx, request)
if err != nil {
t.Fatalf("DeployCertificate failed: %v", err)
}
if !result.Success {
t.Fatalf("deployment should succeed, got: %s", result.Message)
}
// Cert file should only contain the leaf cert (no chain)
certData, _ := os.ReadFile(filepath.Join(tmpDir, "cert.pem"))
if got := string(certData); got != "-----BEGIN CERTIFICATE-----\nMIIC...\n-----END CERTIFICATE-----\n" {
t.Fatalf("cert content mismatch: got %q", got)
}
}
func TestEnvoyConnector_DeployCertificate_SeparateChainFile(t *testing.T) {
ctx := context.Background()
tmpDir := t.TempDir()
cfg := envoy.Config{
CertDir: tmpDir,
CertFilename: "cert.pem",
KeyFilename: "key.pem",
ChainFilename: "chain.pem",
}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
_ = connector.ValidateConfig(ctx, rawConfig)
request := target.DeploymentRequest{
CertPEM: "-----BEGIN CERTIFICATE-----\nleaf...\n-----END CERTIFICATE-----",
KeyPEM: "-----BEGIN PRIVATE KEY-----\nMIIE...\n-----END PRIVATE KEY-----",
ChainPEM: "-----BEGIN CERTIFICATE-----\nCA...\n-----END CERTIFICATE-----",
}
result, err := connector.DeployCertificate(ctx, request)
if err != nil {
t.Fatalf("DeployCertificate failed: %v", err)
}
if !result.Success {
t.Fatalf("deployment should succeed, got: %s", result.Message)
}
// Cert file should only contain leaf (chain is separate)
certData, _ := os.ReadFile(filepath.Join(tmpDir, "cert.pem"))
if got := string(certData); got != "-----BEGIN CERTIFICATE-----\nleaf...\n-----END CERTIFICATE-----\n" {
t.Fatalf("cert should not contain chain when chain_filename is set: got %q", got)
}
// Chain file should exist with chain data
chainData, err := os.ReadFile(filepath.Join(tmpDir, "chain.pem"))
if err != nil {
t.Fatalf("chain file not found: %v", err)
}
if got := string(chainData); got != "-----BEGIN CERTIFICATE-----\nCA...\n-----END CERTIFICATE-----\n" {
t.Fatalf("chain content mismatch: got %q", got)
}
}
func TestEnvoyConnector_DeployCertificate_WithSDSConfig(t *testing.T) {
ctx := context.Background()
tmpDir := t.TempDir()
cfg := envoy.Config{
CertDir: tmpDir,
CertFilename: "cert.pem",
KeyFilename: "key.pem",
SDSConfig: true,
}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
_ = connector.ValidateConfig(ctx, rawConfig)
request := target.DeploymentRequest{
CertPEM: "-----BEGIN CERTIFICATE-----\nMIIC...\n-----END CERTIFICATE-----",
KeyPEM: "-----BEGIN PRIVATE KEY-----\nMIIE...\n-----END PRIVATE KEY-----",
}
result, err := connector.DeployCertificate(ctx, request)
if err != nil {
t.Fatalf("DeployCertificate failed: %v", err)
}
if !result.Success {
t.Fatalf("deployment should succeed, got: %s", result.Message)
}
// Verify SDS JSON file was created
sdsPath := filepath.Join(tmpDir, "sds.json")
sdsData, err := os.ReadFile(sdsPath)
if err != nil {
t.Fatalf("SDS config file not found: %v", err)
}
// Parse and verify SDS JSON structure
var sdsResource envoy.SDSResource
if err := json.Unmarshal(sdsData, &sdsResource); err != nil {
t.Fatalf("invalid SDS JSON: %v", err)
}
if len(sdsResource.Resources) != 1 {
t.Fatalf("expected 1 SDS resource, got %d", len(sdsResource.Resources))
}
res := sdsResource.Resources[0]
if res.Type != "type.googleapis.com/envoy.extensions.transport_sockets.tls.v3.Secret" {
t.Fatalf("wrong @type: %s", res.Type)
}
if res.Name != "server_cert" {
t.Fatalf("wrong name: %s", res.Name)
}
expectedCertPath := filepath.Join(tmpDir, "cert.pem")
expectedKeyPath := filepath.Join(tmpDir, "key.pem")
if res.TLSCertificate.CertificateChain.Filename != expectedCertPath {
t.Fatalf("cert chain path mismatch: got %s, want %s", res.TLSCertificate.CertificateChain.Filename, expectedCertPath)
}
if res.TLSCertificate.PrivateKey.Filename != expectedKeyPath {
t.Fatalf("private key path mismatch: got %s, want %s", res.TLSCertificate.PrivateKey.Filename, expectedKeyPath)
}
// Verify SDS path is in metadata
if result.Metadata["sds_config_path"] != sdsPath {
t.Fatalf("SDS config path not in metadata")
}
}
func TestEnvoyConnector_DeployCertificate_WriteError(t *testing.T) {
ctx := context.Background()
cfg := envoy.Config{
CertDir: "/root/envoy/certs",
CertFilename: "cert.pem",
KeyFilename: "key.pem",
}
connector := envoy.New(&cfg, testLogger())
request := target.DeploymentRequest{
CertPEM: "-----BEGIN CERTIFICATE-----\nMIIC...\n-----END CERTIFICATE-----",
KeyPEM: "-----BEGIN PRIVATE KEY-----\nMIIE...\n-----END PRIVATE KEY-----",
}
result, err := connector.DeployCertificate(ctx, request)
if err == nil {
t.Fatal("expected error for write failure")
}
if result.Success {
t.Fatal("deployment should fail")
}
}
func TestEnvoyConnector_ValidateDeployment_Success(t *testing.T) {
ctx := context.Background()
tmpDir := t.TempDir()
cfg := envoy.Config{CertDir: tmpDir, CertFilename: "cert.pem", KeyFilename: "key.pem"}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
_ = connector.ValidateConfig(ctx, rawConfig)
// First deploy
deployReq := target.DeploymentRequest{
CertPEM: "-----BEGIN CERTIFICATE-----\nMIIC...\n-----END CERTIFICATE-----",
KeyPEM: "-----BEGIN PRIVATE KEY-----\nMIIE...\n-----END PRIVATE KEY-----",
}
connector.DeployCertificate(ctx, deployReq)
// Then validate
validateReq := target.ValidationRequest{
CertificateID: "mc-test",
Serial: "123456",
}
result, err := connector.ValidateDeployment(ctx, validateReq)
if err != nil {
t.Fatalf("ValidateDeployment failed: %v", err)
}
if !result.Valid {
t.Fatalf("validation should succeed, got: %s", result.Message)
}
if result.Serial != "123456" {
t.Fatalf("serial mismatch: expected 123456, got %s", result.Serial)
}
}
func TestEnvoyConnector_ValidateDeployment_CertFileNotFound(t *testing.T) {
ctx := context.Background()
tmpDir := t.TempDir()
cfg := envoy.Config{CertDir: tmpDir, CertFilename: "cert.pem", KeyFilename: "key.pem"}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
_ = connector.ValidateConfig(ctx, rawConfig)
validateReq := target.ValidationRequest{CertificateID: "mc-test", Serial: "123456"}
result, err := connector.ValidateDeployment(ctx, validateReq)
if err == nil {
t.Fatal("expected error for missing certificate file")
}
if result.Valid {
t.Fatal("validation should fail")
}
}
func TestEnvoyConnector_ValidateDeployment_KeyFileNotFound(t *testing.T) {
ctx := context.Background()
tmpDir := t.TempDir()
cfg := envoy.Config{CertDir: tmpDir, CertFilename: "cert.pem", KeyFilename: "key.pem"}
connector := envoy.New(&cfg, testLogger())
rawConfig, _ := json.Marshal(cfg)
_ = connector.ValidateConfig(ctx, rawConfig)
// Write cert but not key
os.WriteFile(filepath.Join(tmpDir, "cert.pem"), []byte("cert"), 0644)
validateReq := target.ValidationRequest{CertificateID: "mc-test", Serial: "123456"}
result, err := connector.ValidateDeployment(ctx, validateReq)
if err == nil {
t.Fatal("expected error for missing key file")
}
if result.Valid {
t.Fatal("validation should fail")
}
}
internal/connector/target/f5/f5.go
+788 -86
View File
@@ -1,108 +1,269 @@
package f5
import (
"bytes"
"context"
"crypto/tls"
"encoding/json"
"fmt"
"io"
"log/slog"
"net/http"
"regexp"
"strings"
"sync"
"time"
"github.com/shankar0123/certctl/internal/connector/target"
)
// Config represents the F5 BIG-IP deployment target configuration.
// Credentials are stored on the proxy agent, not on the control plane server,
// limiting the credential blast radius to the proxy agent's network zone.
type Config struct {
Host string `json:"host"` // F5 BIG-IP hostname or IP
Port int `json:"port"` // F5 iControl REST API port (default 443)
Host string `json:"host"` // F5 BIG-IP management hostname or IP
Port int `json:"port"` // Management port (default 443)
Username string `json:"username"` // Administrative username
Password string `json:"password"` // Administrative password
Partition string `json:"partition"` // F5 partition name (e.g., "Common")
SSLProfile string `json:"ssl_profile"` // SSL profile name to update
Partition string `json:"partition"` // F5 partition name (default "Common")
SSLProfile string `json:"ssl_profile"` // SSL client profile name to update
Insecure bool `json:"insecure"` // Skip TLS verification for mgmt interface (default true)
Timeout int `json:"timeout"` // HTTP timeout in seconds (default 30)
}
// applyDefaults fills in zero-value fields with sensible defaults.
func (c *Config) applyDefaults() {
if c.Port == 0 {
c.Port = 443
}
if c.Partition == "" {
c.Partition = "Common"
}
if c.Timeout == 0 {
c.Timeout = 30
}
// Insecure defaults to true because F5 management interfaces commonly use
// self-signed certificates. See TICKET-016 precedent for InsecureSkipVerify
// documentation. Operators running proper mgmt certs can set insecure=false.
}
// SSLProfileInfo contains information about an F5 SSL client profile.
type SSLProfileInfo struct {
Name string `json:"name"`
Cert string `json:"cert"`
Key string `json:"key"`
Chain string `json:"chain"`
}
// F5Client abstracts iControl REST API calls for testability.
// The real implementation uses net/http against the F5 management interface.
// Tests inject a mock implementation to verify call sequences without a real F5.
type F5Client interface {
// Authenticate obtains an auth token from the F5. Implementations should
// cache the token and re-authenticate on 401.
Authenticate(ctx context.Context) error
// UploadFile uploads raw bytes to the F5 file transfer endpoint.
// The Content-Range header is required even for single-chunk uploads.
UploadFile(ctx context.Context, filename string, data []byte) error
// InstallCert installs an uploaded file as a crypto cert object.
InstallCert(ctx context.Context, name, localFile string) error
// InstallKey installs an uploaded file as a crypto key object.
InstallKey(ctx context.Context, name, localFile string) error
// CreateTransaction starts an F5 transaction for atomic operations.
// Returns the transaction ID.
CreateTransaction(ctx context.Context) (string, error)
// CommitTransaction commits a transaction. If the commit fails,
// F5 rolls back all operations within the transaction automatically.
CommitTransaction(ctx context.Context, transID string) error
// UpdateSSLProfile updates an SSL client profile's cert, key, and chain
// references. If transID is non-empty, the operation is performed within
// the given transaction.
UpdateSSLProfile(ctx context.Context, partition, profile string, certName, keyName, chainName string, transID string) error
// GetSSLProfile retrieves the current configuration of an SSL client profile.
GetSSLProfile(ctx context.Context, partition, profile string) (*SSLProfileInfo, error)
// DeleteCert removes a crypto cert object from the F5.
DeleteCert(ctx context.Context, partition, name string) error
// DeleteKey removes a crypto key object from the F5.
DeleteKey(ctx context.Context, partition, name string) error
}
// Connector implements the target.Connector interface for F5 BIG-IP load balancers.
// This connector communicates with F5's iControl REST API to upload certificates and manage SSL profiles.
// This connector communicates with F5's iControl REST API to upload certificates,
// manage SSL profiles, and validate deployments. It uses the proxy agent pattern:
// a designated agent in the same network zone polls for F5 deployment jobs and
// executes iControl REST calls on behalf of the control plane.
//
// TODO: Implement actual F5 iControl REST API communication.
// The documented API endpoints and flow are:
// - Authentication: POST /mgmt/shared/authn/login
// - Upload certificate: POST /mgmt/tm/ltm/certificate
// - Update SSL profile: PATCH /mgmt/tm/ltm/profile/client-ssl/{profile_name}
// - Check SSL profile: GET /mgmt/tm/ltm/profile/client-ssl/{profile_name}
// Minimum supported BIG-IP version: 12.0+.
type Connector struct {
config *Config
logger *slog.Logger
client *http.Client
client F5Client
}
// New creates a new F5 target connector with the given configuration and logger.
func New(config *Config, logger *slog.Logger) *Connector {
// The real iControl REST HTTP client is initialized with TLS settings based on config.
func New(config *Config, logger *slog.Logger) (*Connector, error) {
if config == nil {
return nil, fmt.Errorf("F5 config is required")
}
config.applyDefaults()
httpClient := &http.Client{
Timeout: time.Duration(config.Timeout) * time.Second,
Transport: &http.Transport{
TLSClientConfig: &tls.Config{
// F5 management interfaces commonly use self-signed certificates.
// InsecureSkipVerify is controlled by the config.Insecure field
// (default true). Operators with proper management certs can set
// insecure=false. See TICKET-016 for security rationale.
InsecureSkipVerify: config.Insecure, //nolint:gosec // configurable, documented
},
},
}
realClient := &realF5Client{
baseURL: fmt.Sprintf("https://%s:%d", config.Host, config.Port),
username: config.Username,
password: config.Password,
httpClient: httpClient,
logger: logger,
}
return &Connector{
config: config,
logger: logger,
client: &http.Client{
Timeout: 30 * time.Second,
// TODO: Configure proper TLS verification or skip for self-signed F5 certs
},
client: realClient,
}, nil
}
// NewWithClient creates a new F5 target connector with an injected F5Client.
// Used in tests to mock iControl REST API calls without a real F5 device.
func NewWithClient(config *Config, logger *slog.Logger, client F5Client) *Connector {
if config != nil {
config.applyDefaults()
}
return &Connector{
config: config,
logger: logger,
client: client,
}
}
// Regex validators for config fields to prevent injection.
// Same pattern as IIS validIISName.
var (
// validHost matches hostnames, IPv4, and IPv6 addresses.
validHost = regexp.MustCompile(`^[a-zA-Z0-9\.\-\:\[\]]+$`)
// validPartition matches F5 partition names (alphanumeric, underscore, hyphen).
validPartition = regexp.MustCompile(`^[a-zA-Z0-9_\-]+$`)
// validProfileName matches SSL profile names (alphanumeric, underscore, hyphen, dot).
validProfileName = regexp.MustCompile(`^[a-zA-Z0-9_\-\.]+$`)
)
// ValidateConfig checks that the F5 BIG-IP is reachable and credentials are valid.
// It attempts to authenticate to the F5 iControl REST API.
//
// TODO: Implement actual F5 authentication validation.
// It validates config fields, applies defaults, and tests authentication.
func (c *Connector) ValidateConfig(ctx context.Context, rawConfig json.RawMessage) error {
var cfg Config
if err := json.Unmarshal(rawConfig, &cfg); err != nil {
return fmt.Errorf("invalid F5 config: %w", err)
}
if cfg.Host == "" || cfg.Username == "" || cfg.Password == "" {
return fmt.Errorf("F5 host, username, and password are required")
// Validate required fields
if cfg.Host == "" {
return fmt.Errorf("host is required")
}
if cfg.Username == "" {
return fmt.Errorf("username is required")
}
if cfg.Password == "" {
return fmt.Errorf("password is required")
}
if cfg.SSLProfile == "" {
return fmt.Errorf("ssl_profile is required")
}
if cfg.Port == 0 {
cfg.Port = 443 // Default HTTPS port
cfg.applyDefaults()
// Validate field formats (prevent injection)
if !validHost.MatchString(cfg.Host) {
return fmt.Errorf("host contains invalid characters (allowed: alphanumeric, dots, hyphens, colons, brackets)")
}
if len(cfg.Host) > 253 {
return fmt.Errorf("host exceeds maximum length (253 characters)")
}
if !validPartition.MatchString(cfg.Partition) {
return fmt.Errorf("partition contains invalid characters (allowed: alphanumeric, underscore, hyphen)")
}
if len(cfg.Partition) > 64 {
return fmt.Errorf("partition exceeds maximum length (64 characters)")
}
if !validProfileName.MatchString(cfg.SSLProfile) {
return fmt.Errorf("ssl_profile contains invalid characters (allowed: alphanumeric, underscore, hyphen, dot)")
}
if len(cfg.SSLProfile) > 256 {
return fmt.Errorf("ssl_profile exceeds maximum length (256 characters)")
}
if cfg.Partition == "" {
cfg.Partition = "Common"
// Validate port range
if cfg.Port < 1 || cfg.Port > 65535 {
return fmt.Errorf("port must be between 1 and 65535, got %d", cfg.Port)
}
c.logger.Info("validating F5 configuration",
"host", cfg.Host,
"port", cfg.Port,
"partition", cfg.Partition)
"partition", cfg.Partition,
"ssl_profile", cfg.SSLProfile)
// TODO: Implement F5 authentication check
// In production:
// 1. POST to https://{host}:{port}/mgmt/shared/authn/login
// 2. Send credentials in request body
// 3. Verify response contains valid authentication token
// 4. Optionally test connectivity to SSL profile endpoint
c.logger.Warn("F5 validation not yet fully implemented",
"host", cfg.Host)
// Test authentication
if err := c.client.Authenticate(ctx); err != nil {
return fmt.Errorf("F5 authentication failed: %w", err)
}
c.config = &cfg
c.logger.Info("F5 configuration validated",
"host", cfg.Host,
"partition", cfg.Partition,
"ssl_profile", cfg.SSLProfile)
return nil
}
// objectName generates a unique name for F5 crypto objects using nanosecond timestamps.
// Format: certctl-{type}-{unix_nanos}
func objectName(objType string) string {
return fmt.Sprintf("certctl-%s-%d", objType, time.Now().UnixNano())
}
// partitionPath returns the full partition-qualified path for an F5 object reference.
// Used in JSON body values (e.g., "/Common/certctl-cert-xxx").
func partitionPath(partition, name string) string {
return fmt.Sprintf("/%s/%s", partition, name)
}
// DeployCertificate uploads a certificate to the F5 BIG-IP and updates the specified SSL profile.
//
// The F5 deployment process:
// 1. Authenticate to iControl REST API using credentials
// 2. Upload certificate PEM to /mgmt/tm/ltm/certificate
// 3. Upload chain PEM as separate certificate if needed
// 4. Update the target SSL profile to reference the new certificate
// 5. Verify the profile was updated successfully
// The deployment uses F5's transaction API for atomic profile updates:
// 1. Authenticate to iControl REST API
// 2. Upload cert/key/chain PEM files via file transfer endpoint
// 3. Install as crypto objects (cert, key, optionally chain)
// 4. Create a transaction
// 5. Update SSL profile within the transaction
// 6. Commit the transaction (atomic — rolls back on failure)
//
// TODO: Implement actual F5 iControl REST API calls.
// API endpoints used:
// - POST /mgmt/shared/authn/login (authentication)
// - POST /mgmt/tm/ltm/certificate (upload cert)
// - PATCH /mgmt/tm/ltm/profile/client-ssl/{SSLProfile} (update profile)
// On failure after crypto object installation, cleanup removes uploaded objects
// to avoid accumulating orphans on the F5.
func (c *Connector) DeployCertificate(ctx context.Context, request target.DeploymentRequest) (*target.DeploymentResult, error) {
c.logger.Info("deploying certificate to F5 BIG-IP",
"host", c.config.Host,
@@ -111,47 +272,233 @@ func (c *Connector) DeployCertificate(ctx context.Context, request target.Deploy
startTime := time.Now()
// TODO: Implement F5 certificate deployment
// In production:
// 1. Authenticate to F5: POST /mgmt/shared/authn/login
// 2. Create certificate object:
// POST /mgmt/tm/ltm/certificate
// Body: {"name": "certctl-cert-{timestamp}", "certificateText": "{CertPEM}"}
// 3. If chain is provided, upload as separate certificate:
// POST /mgmt/tm/ltm/certificate
// Body: {"name": "certctl-chain-{timestamp}", "certificateText": "{ChainPEM}"}
// 4. Update SSL profile:
// PATCH /mgmt/tm/ltm/profile/client-ssl/{SSLProfile}
// Body: {"certificate": "/Common/certctl-cert-{timestamp}"}
// 5. Verify deployment by checking profile status
// Validate we have a private key
if request.KeyPEM == "" {
errMsg := "private key (KeyPEM) is required for F5 deployment"
c.logger.Error("deployment failed", "error", errMsg)
return &target.DeploymentResult{
Success: false,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Step 1: Authenticate
if err := c.client.Authenticate(ctx); err != nil {
errMsg := fmt.Sprintf("F5 authentication failed: %v", err)
c.logger.Error("deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Generate unique object names
certName := objectName("cert")
keyName := objectName("key")
chainName := ""
hasChain := strings.TrimSpace(request.ChainPEM) != ""
if hasChain {
chainName = objectName("chain")
}
// Track installed objects for cleanup on failure
var installedCerts []string
var installedKeys []string
cleanup := func() {
c.cleanupCryptoObjects(ctx, c.config.Partition, installedCerts, installedKeys)
}
// Step 2-3: Upload cert and key PEM files
certFilename := certName + ".pem"
if err := c.client.UploadFile(ctx, certFilename, []byte(request.CertPEM)); err != nil {
errMsg := fmt.Sprintf("failed to upload certificate file: %v", err)
c.logger.Error("cert upload failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
keyFilename := keyName + ".pem"
if err := c.client.UploadFile(ctx, keyFilename, []byte(request.KeyPEM)); err != nil {
errMsg := fmt.Sprintf("failed to upload key file: %v", err)
c.logger.Error("key upload failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Step 4: Upload chain if present
chainFilename := ""
if hasChain {
chainFilename = chainName + ".pem"
if err := c.client.UploadFile(ctx, chainFilename, []byte(request.ChainPEM)); err != nil {
errMsg := fmt.Sprintf("failed to upload chain file: %v", err)
c.logger.Error("chain upload failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
}
// Step 5: Install cert crypto object
certLocalFile := "/var/config/rest/downloads/" + certFilename
if err := c.client.InstallCert(ctx, certName, certLocalFile); err != nil {
errMsg := fmt.Sprintf("failed to install cert crypto object: %v", err)
c.logger.Error("cert install failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
installedCerts = append(installedCerts, certName)
// Step 6: Install key crypto object
keyLocalFile := "/var/config/rest/downloads/" + keyFilename
if err := c.client.InstallKey(ctx, keyName, keyLocalFile); err != nil {
errMsg := fmt.Sprintf("failed to install key crypto object: %v", err)
c.logger.Error("key install failed", "error", err)
cleanup()
return &target.DeploymentResult{
Success: false,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
installedKeys = append(installedKeys, keyName)
// Step 7: Install chain crypto object (if present)
if hasChain {
chainLocalFile := "/var/config/rest/downloads/" + chainFilename
if err := c.client.InstallCert(ctx, chainName, chainLocalFile); err != nil {
errMsg := fmt.Sprintf("failed to install chain crypto object: %v", err)
c.logger.Error("chain install failed", "error", err)
cleanup()
return &target.DeploymentResult{
Success: false,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
installedCerts = append(installedCerts, chainName)
}
// Step 8: Create transaction for atomic SSL profile update
transID, err := c.client.CreateTransaction(ctx)
if err != nil {
errMsg := fmt.Sprintf("failed to create F5 transaction: %v", err)
c.logger.Error("transaction creation failed", "error", err)
cleanup()
return &target.DeploymentResult{
Success: false,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Step 9: Update SSL profile within transaction
profileChainName := chainName
if err := c.client.UpdateSSLProfile(ctx, c.config.Partition, c.config.SSLProfile, certName, keyName, profileChainName, transID); err != nil {
errMsg := fmt.Sprintf("failed to update SSL profile: %v", err)
c.logger.Error("profile update failed", "error", err,
"ssl_profile", c.config.SSLProfile,
"transaction_id", transID)
cleanup()
return &target.DeploymentResult{
Success: false,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Step 10: Commit transaction
if err := c.client.CommitTransaction(ctx, transID); err != nil {
errMsg := fmt.Sprintf("failed to commit F5 transaction: %v", err)
c.logger.Error("transaction commit failed", "error", err,
"transaction_id", transID)
cleanup()
return &target.DeploymentResult{
Success: false,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
deploymentDuration := time.Since(startTime)
c.logger.Warn("F5 deployment not yet implemented",
c.logger.Info("certificate deployed to F5 BIG-IP successfully",
"duration", deploymentDuration.String(),
"host", c.config.Host,
"ssl_profile", c.config.SSLProfile)
"ssl_profile", c.config.SSLProfile,
"cert_object", certName)
return &target.DeploymentResult{
Success: true,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
DeploymentID: fmt.Sprintf("f5-%d", time.Now().Unix()),
Message: "Certificate deployment to F5 initiated (stub)",
DeploymentID: fmt.Sprintf("f5-%s-%d", certName, time.Now().Unix()),
Message: "Certificate uploaded and SSL profile updated via iControl REST",
DeployedAt: time.Now(),
Metadata: map[string]string{
"host": c.config.Host,
"partition": c.config.Partition,
"ssl_profile": c.config.SSLProfile,
"duration_ms": fmt.Sprintf("%d", deploymentDuration.Milliseconds()),
"host": c.config.Host,
"partition": c.config.Partition,
"ssl_profile": c.config.SSLProfile,
"cert_object_name": certName,
"key_object_name": keyName,
"chain_object_name": chainName,
"duration_ms": fmt.Sprintf("%d", deploymentDuration.Milliseconds()),
},
}, nil
}
// cleanupCryptoObjects removes installed crypto objects from the F5 on deployment failure.
// Best-effort: logs warnings on cleanup failures but does not mask the original error.
func (c *Connector) cleanupCryptoObjects(ctx context.Context, partition string, certNames, keyNames []string) {
for _, name := range certNames {
if name == "" {
continue
}
if err := c.client.DeleteCert(ctx, partition, name); err != nil {
c.logger.Warn("cleanup: failed to delete cert crypto object",
"name", name, "partition", partition, "error", err)
} else {
c.logger.Debug("cleanup: deleted cert crypto object",
"name", name, "partition", partition)
}
}
for _, name := range keyNames {
if name == "" {
continue
}
if err := c.client.DeleteKey(ctx, partition, name); err != nil {
c.logger.Warn("cleanup: failed to delete key crypto object",
"name", name, "partition", partition, "error", err)
} else {
c.logger.Debug("cleanup: deleted key crypto object",
"name", name, "partition", partition)
}
}
}
// ValidateDeployment verifies that the certificate is properly deployed on the F5 BIG-IP.
// It checks the SSL profile configuration to ensure it references the correct certificate.
//
// TODO: Implement actual F5 validation via iControl REST API.
// API endpoint used:
// - GET /mgmt/tm/ltm/profile/client-ssl/{SSLProfile}
// It queries the SSL profile and checks that it references a certctl-managed certificate.
func (c *Connector) ValidateDeployment(ctx context.Context, request target.ValidationRequest) (*target.ValidationResult, error) {
c.logger.Info("validating F5 deployment",
"certificate_id", request.CertificateID,
@@ -160,30 +507,385 @@ func (c *Connector) ValidateDeployment(ctx context.Context, request target.Valid
startTime := time.Now()
// TODO: Implement F5 deployment validation
// In production:
// 1. Authenticate to F5: POST /mgmt/shared/authn/login
// 2. Query SSL profile:
// GET /mgmt/tm/ltm/profile/client-ssl/{SSLProfile}
// 3. Verify the response includes the expected certificate name
// 4. Optionally check certificate validity dates
// 5. Verify the profile is in active use (no errors/warnings)
// Authenticate
if err := c.client.Authenticate(ctx); err != nil {
errMsg := fmt.Sprintf("F5 authentication failed: %v", err)
c.logger.Error("validation failed", "error", err)
return &target.ValidationResult{
Valid: false,
Serial: request.Serial,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
ValidatedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Query SSL profile
profile, err := c.client.GetSSLProfile(ctx, c.config.Partition, c.config.SSLProfile)
if err != nil {
errMsg := fmt.Sprintf("failed to get SSL profile %q: %v", c.config.SSLProfile, err)
c.logger.Error("validation failed", "error", err,
"ssl_profile", c.config.SSLProfile)
return &target.ValidationResult{
Valid: false,
Serial: request.Serial,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
ValidatedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Verify profile has a cert configured
if profile.Cert == "" {
errMsg := fmt.Sprintf("SSL profile %q has no certificate configured", c.config.SSLProfile)
c.logger.Error("validation failed", "error", errMsg)
return &target.ValidationResult{
Valid: false,
Serial: request.Serial,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: errMsg,
ValidatedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
validationDuration := time.Since(startTime)
c.logger.Warn("F5 validation not yet implemented",
"ssl_profile", c.config.SSLProfile)
c.logger.Info("F5 deployment validated",
"duration", validationDuration.String(),
"ssl_profile", c.config.SSLProfile,
"current_cert", profile.Cert)
return &target.ValidationResult{
Valid: true,
Serial: request.Serial,
TargetAddress: fmt.Sprintf("%s:%d", c.config.Host, c.config.Port),
Message: "Certificate deployment validation initiated (stub)",
Message: fmt.Sprintf("SSL profile %q has cert %q configured", c.config.SSLProfile, profile.Cert),
ValidatedAt: time.Now(),
Metadata: map[string]string{
"host": c.config.Host,
"ssl_profile": c.config.SSLProfile,
"current_cert": profile.Cert,
"current_key": profile.Key,
"current_chain": profile.Chain,
"duration_ms": fmt.Sprintf("%d", validationDuration.Milliseconds()),
},
}, nil
}
// --- realF5Client: production iControl REST implementation ---
// realF5Client implements F5Client using net/http against the iControl REST API.
type realF5Client struct {
baseURL string
username string
password string
httpClient *http.Client
logger *slog.Logger
mu sync.Mutex
token string
}
// Authenticate obtains a token from POST /mgmt/shared/authn/login.
// The token is cached and reused. On 401 errors in other methods,
// callers should call Authenticate again to refresh.
func (c *realF5Client) Authenticate(ctx context.Context) error {
body := map[string]string{
"username": c.username,
"password": c.password,
"loginProviderName": "tmos",
}
bodyJSON, err := json.Marshal(body)
if err != nil {
return fmt.Errorf("failed to marshal auth body: %w", err)
}
req, err := http.NewRequestWithContext(ctx, http.MethodPost, c.baseURL+"/mgmt/shared/authn/login", bytes.NewReader(bodyJSON))
if err != nil {
return fmt.Errorf("failed to create auth request: %w", err)
}
req.Header.Set("Content-Type", "application/json")
resp, err := c.httpClient.Do(req)
if err != nil {
return fmt.Errorf("F5 auth request failed: %w", err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
respBody, _ := io.ReadAll(resp.Body)
return fmt.Errorf("F5 auth failed with status %d: %s", resp.StatusCode, string(respBody))
}
var result struct {
Token struct {
Token string `json:"token"`
} `json:"token"`
}
if err := json.NewDecoder(resp.Body).Decode(&result); err != nil {
return fmt.Errorf("failed to decode auth response: %w", err)
}
if result.Token.Token == "" {
return fmt.Errorf("F5 auth response contained no token")
}
c.mu.Lock()
c.token = result.Token.Token
c.mu.Unlock()
return nil
}
// doRequest executes an HTTP request with the F5 auth token.
// On 401 response, it re-authenticates once and retries.
func (c *realF5Client) doRequest(ctx context.Context, method, url string, body io.Reader, extraHeaders map[string]string) (*http.Response, error) {
return c.doRequestInternal(ctx, method, url, body, extraHeaders, true)
}
func (c *realF5Client) doRequestInternal(ctx context.Context, method, url string, body io.Reader, extraHeaders map[string]string, retryOn401 bool) (*http.Response, error) {
// Buffer body for potential retry
var bodyBytes []byte
if body != nil {
var err error
bodyBytes, err = io.ReadAll(body)
if err != nil {
return nil, fmt.Errorf("failed to read request body: %w", err)
}
}
req, err := http.NewRequestWithContext(ctx, method, url, bytes.NewReader(bodyBytes))
if err != nil {
return nil, fmt.Errorf("failed to create request: %w", err)
}
c.mu.Lock()
token := c.token
c.mu.Unlock()
req.Header.Set("X-F5-Auth-Token", token)
req.Header.Set("Content-Type", "application/json")
for k, v := range extraHeaders {
req.Header.Set(k, v)
}
resp, err := c.httpClient.Do(req)
if err != nil {
return nil, err
}
if resp.StatusCode == http.StatusUnauthorized && retryOn401 {
resp.Body.Close()
c.logger.Warn("F5 request returned 401, re-authenticating", "url", url)
if authErr := c.Authenticate(ctx); authErr != nil {
return nil, fmt.Errorf("F5 re-authentication failed: %w", authErr)
}
return c.doRequestInternal(ctx, method, url, bytes.NewReader(bodyBytes), extraHeaders, false)
}
return resp, nil
}
// UploadFile uploads raw bytes via POST /mgmt/shared/file-transfer/uploads/{filename}.
// The Content-Range header is required even for single-chunk uploads (F5-specific).
func (c *realF5Client) UploadFile(ctx context.Context, filename string, data []byte) error {
url := fmt.Sprintf("%s/mgmt/shared/file-transfer/uploads/%s", c.baseURL, filename)
headers := map[string]string{
"Content-Type": "application/octet-stream",
"Content-Range": fmt.Sprintf("0-%d/%d", len(data)-1, len(data)),
}
resp, err := c.doRequest(ctx, http.MethodPost, url, bytes.NewReader(data), headers)
if err != nil {
return fmt.Errorf("upload file %q failed: %w", filename, err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
respBody, _ := io.ReadAll(resp.Body)
return fmt.Errorf("upload file %q failed with status %d: %s", filename, resp.StatusCode, string(respBody))
}
return nil
}
// InstallCert installs an uploaded file as a crypto cert object.
func (c *realF5Client) InstallCert(ctx context.Context, name, localFile string) error {
url := c.baseURL + "/mgmt/tm/sys/crypto/cert"
body := map[string]string{
"command": "install",
"name": name,
"from-local-file": localFile,
}
bodyJSON, _ := json.Marshal(body)
resp, err := c.doRequest(ctx, http.MethodPost, url, bytes.NewReader(bodyJSON), nil)
if err != nil {
return fmt.Errorf("install cert %q failed: %w", name, err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
respBody, _ := io.ReadAll(resp.Body)
return fmt.Errorf("install cert %q failed with status %d: %s", name, resp.StatusCode, string(respBody))
}
return nil
}
// InstallKey installs an uploaded file as a crypto key object.
func (c *realF5Client) InstallKey(ctx context.Context, name, localFile string) error {
url := c.baseURL + "/mgmt/tm/sys/crypto/key"
body := map[string]string{
"command": "install",
"name": name,
"from-local-file": localFile,
}
bodyJSON, _ := json.Marshal(body)
resp, err := c.doRequest(ctx, http.MethodPost, url, bytes.NewReader(bodyJSON), nil)
if err != nil {
return fmt.Errorf("install key %q failed: %w", name, err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
respBody, _ := io.ReadAll(resp.Body)
return fmt.Errorf("install key %q failed with status %d: %s", name, resp.StatusCode, string(respBody))
}
return nil
}
// CreateTransaction starts an F5 transaction via POST /mgmt/tm/transaction.
func (c *realF5Client) CreateTransaction(ctx context.Context) (string, error) {
url := c.baseURL + "/mgmt/tm/transaction"
resp, err := c.doRequest(ctx, http.MethodPost, url, bytes.NewReader([]byte("{}")), nil)
if err != nil {
return "", fmt.Errorf("create transaction failed: %w", err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
respBody, _ := io.ReadAll(resp.Body)
return "", fmt.Errorf("create transaction failed with status %d: %s", resp.StatusCode, string(respBody))
}
var result struct {
TransID json.Number `json:"transId"`
}
if err := json.NewDecoder(resp.Body).Decode(&result); err != nil {
return "", fmt.Errorf("failed to decode transaction response: %w", err)
}
transID := result.TransID.String()
if transID == "" {
return "", fmt.Errorf("F5 returned empty transaction ID")
}
return transID, nil
}
// CommitTransaction commits a transaction via PATCH /mgmt/tm/transaction/{id}.
func (c *realF5Client) CommitTransaction(ctx context.Context, transID string) error {
url := fmt.Sprintf("%s/mgmt/tm/transaction/%s", c.baseURL, transID)
body := map[string]string{"state": "VALIDATING"}
bodyJSON, _ := json.Marshal(body)
resp, err := c.doRequest(ctx, http.MethodPatch, url, bytes.NewReader(bodyJSON), nil)
if err != nil {
return fmt.Errorf("commit transaction %s failed: %w", transID, err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
respBody, _ := io.ReadAll(resp.Body)
return fmt.Errorf("commit transaction %s failed with status %d: %s", transID, resp.StatusCode, string(respBody))
}
return nil
}
// UpdateSSLProfile updates an SSL client profile's cert/key/chain references.
// Uses tilde ~ as partition separator in the URL, forward slash / in JSON body values.
func (c *realF5Client) UpdateSSLProfile(ctx context.Context, partition, profile string, certName, keyName, chainName string, transID string) error {
url := fmt.Sprintf("%s/mgmt/tm/ltm/profile/client-ssl/~%s~%s", c.baseURL, partition, profile)
body := map[string]string{
"cert": partitionPath(partition, certName),
"key": partitionPath(partition, keyName),
}
if chainName != "" {
body["chain"] = partitionPath(partition, chainName)
}
bodyJSON, _ := json.Marshal(body)
headers := map[string]string{}
if transID != "" {
headers["X-F5-REST-Overriding-Collection"] = fmt.Sprintf("/mgmt/tm/transaction/%s", transID)
}
resp, err := c.doRequest(ctx, http.MethodPatch, url, bytes.NewReader(bodyJSON), headers)
if err != nil {
return fmt.Errorf("update SSL profile %q failed: %w", profile, err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
respBody, _ := io.ReadAll(resp.Body)
return fmt.Errorf("update SSL profile %q failed with status %d: %s", profile, resp.StatusCode, string(respBody))
}
return nil
}
// GetSSLProfile retrieves an SSL client profile's configuration.
func (c *realF5Client) GetSSLProfile(ctx context.Context, partition, profile string) (*SSLProfileInfo, error) {
url := fmt.Sprintf("%s/mgmt/tm/ltm/profile/client-ssl/~%s~%s", c.baseURL, partition, profile)
resp, err := c.doRequest(ctx, http.MethodGet, url, nil, nil)
if err != nil {
return nil, fmt.Errorf("get SSL profile %q failed: %w", profile, err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
respBody, _ := io.ReadAll(resp.Body)
return nil, fmt.Errorf("get SSL profile %q failed with status %d: %s", profile, resp.StatusCode, string(respBody))
}
var info SSLProfileInfo
if err := json.NewDecoder(resp.Body).Decode(&info); err != nil {
return nil, fmt.Errorf("failed to decode SSL profile response: %w", err)
}
return &info, nil
}
// DeleteCert removes a crypto cert object from the F5.
func (c *realF5Client) DeleteCert(ctx context.Context, partition, name string) error {
url := fmt.Sprintf("%s/mgmt/tm/sys/crypto/cert/~%s~%s", c.baseURL, partition, name)
resp, err := c.doRequest(ctx, http.MethodDelete, url, nil, nil)
if err != nil {
return fmt.Errorf("delete cert %q failed: %w", name, err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK && resp.StatusCode != http.StatusNoContent {
respBody, _ := io.ReadAll(resp.Body)
return fmt.Errorf("delete cert %q failed with status %d: %s", name, resp.StatusCode, string(respBody))
}
return nil
}
// DeleteKey removes a crypto key object from the F5.
func (c *realF5Client) DeleteKey(ctx context.Context, partition, name string) error {
url := fmt.Sprintf("%s/mgmt/tm/sys/crypto/key/~%s~%s", c.baseURL, partition, name)
resp, err := c.doRequest(ctx, http.MethodDelete, url, nil, nil)
if err != nil {
return fmt.Errorf("delete key %q failed: %w", name, err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK && resp.StatusCode != http.StatusNoContent {
respBody, _ := io.ReadAll(resp.Body)
return fmt.Errorf("delete key %q failed with status %d: %s", name, resp.StatusCode, string(respBody))
}
return nil
}
internal/connector/target/f5/f5_test.go
+812
View File
@@ -0,0 +1,812 @@
package f5
import (
"context"
"encoding/json"
"fmt"
"log/slog"
"os"
"strings"
"testing"
"github.com/shankar0123/certctl/internal/connector/target"
)
// --- Mock F5Client ---
// mockCall records a single method call to the mock F5Client.
type mockCall struct {
Method string
Args []string
}
// mockF5Client records all calls and returns configurable responses.
type mockF5Client struct {
calls []mockCall
// Configurable responses per method
authenticateErr error
authenticateCount int // tracks number of Authenticate calls
uploadFileErr error
uploadFileErrOn string // only error when filename contains this substring
installCertErr error
installCertErrOn string
installKeyErr error
createTransactionID string
createTransactionErr error
commitTransactionErr error
updateSSLProfileErr error
getSSLProfileResult *SSLProfileInfo
getSSLProfileErr error
deleteCertErr error
deleteKeyErr error
// Track cleanup calls specifically
deletedCerts []string
deletedKeys []string
}
func newMockF5Client() *mockF5Client {
return &mockF5Client{
createTransactionID: "12345",
}
}
func (m *mockF5Client) Authenticate(ctx context.Context) error {
m.calls = append(m.calls, mockCall{Method: "Authenticate"})
m.authenticateCount++
return m.authenticateErr
}
func (m *mockF5Client) UploadFile(ctx context.Context, filename string, data []byte) error {
m.calls = append(m.calls, mockCall{Method: "UploadFile", Args: []string{filename, fmt.Sprintf("%d bytes", len(data))}})
if m.uploadFileErrOn != "" && strings.Contains(filename, m.uploadFileErrOn) {
return m.uploadFileErr
}
if m.uploadFileErrOn == "" && m.uploadFileErr != nil {
return m.uploadFileErr
}
return nil
}
func (m *mockF5Client) InstallCert(ctx context.Context, name, localFile string) error {
m.calls = append(m.calls, mockCall{Method: "InstallCert", Args: []string{name, localFile}})
if m.installCertErrOn != "" && strings.Contains(name, m.installCertErrOn) {
return m.installCertErr
}
if m.installCertErrOn == "" && m.installCertErr != nil {
return m.installCertErr
}
return nil
}
func (m *mockF5Client) InstallKey(ctx context.Context, name, localFile string) error {
m.calls = append(m.calls, mockCall{Method: "InstallKey", Args: []string{name, localFile}})
return m.installKeyErr
}
func (m *mockF5Client) CreateTransaction(ctx context.Context) (string, error) {
m.calls = append(m.calls, mockCall{Method: "CreateTransaction"})
return m.createTransactionID, m.createTransactionErr
}
func (m *mockF5Client) CommitTransaction(ctx context.Context, transID string) error {
m.calls = append(m.calls, mockCall{Method: "CommitTransaction", Args: []string{transID}})
return m.commitTransactionErr
}
func (m *mockF5Client) UpdateSSLProfile(ctx context.Context, partition, profile string, certName, keyName, chainName string, transID string) error {
m.calls = append(m.calls, mockCall{Method: "UpdateSSLProfile", Args: []string{partition, profile, certName, keyName, chainName, transID}})
return m.updateSSLProfileErr
}
func (m *mockF5Client) GetSSLProfile(ctx context.Context, partition, profile string) (*SSLProfileInfo, error) {
m.calls = append(m.calls, mockCall{Method: "GetSSLProfile", Args: []string{partition, profile}})
return m.getSSLProfileResult, m.getSSLProfileErr
}
func (m *mockF5Client) DeleteCert(ctx context.Context, partition, name string) error {
m.calls = append(m.calls, mockCall{Method: "DeleteCert", Args: []string{partition, name}})
m.deletedCerts = append(m.deletedCerts, name)
return m.deleteCertErr
}
func (m *mockF5Client) DeleteKey(ctx context.Context, partition, name string) error {
m.calls = append(m.calls, mockCall{Method: "DeleteKey", Args: []string{partition, name}})
m.deletedKeys = append(m.deletedKeys, name)
return m.deleteKeyErr
}
// hasCalled returns true if the mock received a call to the given method.
func (m *mockF5Client) hasCalled(method string) bool {
for _, c := range m.calls {
if c.Method == method {
return true
}
}
return false
}
// callCount returns the number of times a method was called.
func (m *mockF5Client) callCount(method string) int {
count := 0
for _, c := range m.calls {
if c.Method == method {
count++
}
}
return count
}
func testLogger() *slog.Logger {
return slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelError}))
}
// --- ValidateConfig tests ---
func TestValidateConfig(t *testing.T) {
t.Run("Success", func(t *testing.T) {
mock := newMockF5Client()
cfg := &Config{Host: "f5.test.com", Username: "admin", Password: "secret", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
rawConfig, _ := json.Marshal(map[string]interface{}{
"host": "f5.test.com",
"username": "admin",
"password": "secret",
"ssl_profile": "myprofile",
})
err := conn.ValidateConfig(context.Background(), rawConfig)
if err != nil {
t.Fatalf("ValidateConfig failed: %v", err)
}
if !mock.hasCalled("Authenticate") {
t.Error("expected Authenticate to be called")
}
})
t.Run("DefaultsApplied", func(t *testing.T) {
mock := newMockF5Client()
cfg := &Config{}
conn := NewWithClient(cfg, testLogger(), mock)
rawConfig, _ := json.Marshal(map[string]interface{}{
"host": "f5.test.com",
"username": "admin",
"password": "secret",
"ssl_profile": "myprofile",
})
err := conn.ValidateConfig(context.Background(), rawConfig)
if err != nil {
t.Fatalf("ValidateConfig failed: %v", err)
}
// Check defaults were applied
if conn.config.Port != 443 {
t.Errorf("expected port 443, got %d", conn.config.Port)
}
if conn.config.Partition != "Common" {
t.Errorf("expected partition Common, got %s", conn.config.Partition)
}
if conn.config.Timeout != 30 {
t.Errorf("expected timeout 30, got %d", conn.config.Timeout)
}
})
t.Run("InvalidJSON", func(t *testing.T) {
conn := NewWithClient(&Config{}, testLogger(), newMockF5Client())
err := conn.ValidateConfig(context.Background(), json.RawMessage(`{invalid}`))
if err == nil {
t.Fatal("expected error for invalid JSON")
}
if !strings.Contains(err.Error(), "invalid F5 config") {
t.Errorf("expected 'invalid F5 config' in error, got: %v", err)
}
})
t.Run("MissingHost", func(t *testing.T) {
conn := NewWithClient(&Config{}, testLogger(), newMockF5Client())
rawConfig, _ := json.Marshal(map[string]string{
"username": "admin", "password": "secret", "ssl_profile": "prof",
})
err := conn.ValidateConfig(context.Background(), rawConfig)
if err == nil || !strings.Contains(err.Error(), "host is required") {
t.Errorf("expected 'host is required', got: %v", err)
}
})
t.Run("MissingUsername", func(t *testing.T) {
conn := NewWithClient(&Config{}, testLogger(), newMockF5Client())
rawConfig, _ := json.Marshal(map[string]string{
"host": "f5.test.com", "password": "secret", "ssl_profile": "prof",
})
err := conn.ValidateConfig(context.Background(), rawConfig)
if err == nil || !strings.Contains(err.Error(), "username is required") {
t.Errorf("expected 'username is required', got: %v", err)
}
})
t.Run("MissingPassword", func(t *testing.T) {
conn := NewWithClient(&Config{}, testLogger(), newMockF5Client())
rawConfig, _ := json.Marshal(map[string]string{
"host": "f5.test.com", "username": "admin", "ssl_profile": "prof",
})
err := conn.ValidateConfig(context.Background(), rawConfig)
if err == nil || !strings.Contains(err.Error(), "password is required") {
t.Errorf("expected 'password is required', got: %v", err)
}
})
t.Run("MissingSSLProfile", func(t *testing.T) {
conn := NewWithClient(&Config{}, testLogger(), newMockF5Client())
rawConfig, _ := json.Marshal(map[string]string{
"host": "f5.test.com", "username": "admin", "password": "secret",
})
err := conn.ValidateConfig(context.Background(), rawConfig)
if err == nil || !strings.Contains(err.Error(), "ssl_profile is required") {
t.Errorf("expected 'ssl_profile is required', got: %v", err)
}
})
t.Run("InvalidPort", func(t *testing.T) {
conn := NewWithClient(&Config{}, testLogger(), newMockF5Client())
rawConfig, _ := json.Marshal(map[string]interface{}{
"host": "f5.test.com", "username": "admin", "password": "secret",
"ssl_profile": "prof", "port": 70000,
})
err := conn.ValidateConfig(context.Background(), rawConfig)
if err == nil || !strings.Contains(err.Error(), "port must be between") {
t.Errorf("expected port range error, got: %v", err)
}
})
t.Run("AuthFailure", func(t *testing.T) {
mock := newMockF5Client()
mock.authenticateErr = fmt.Errorf("connection refused")
conn := NewWithClient(&Config{}, testLogger(), mock)
rawConfig, _ := json.Marshal(map[string]string{
"host": "f5.test.com", "username": "admin", "password": "bad",
"ssl_profile": "prof",
})
err := conn.ValidateConfig(context.Background(), rawConfig)
if err == nil || !strings.Contains(err.Error(), "authentication failed") {
t.Errorf("expected auth failure error, got: %v", err)
}
})
t.Run("InvalidPartitionChars", func(t *testing.T) {
conn := NewWithClient(&Config{}, testLogger(), newMockF5Client())
rawConfig, _ := json.Marshal(map[string]string{
"host": "f5.test.com", "username": "admin", "password": "secret",
"ssl_profile": "prof", "partition": "Common; rm -rf /",
})
err := conn.ValidateConfig(context.Background(), rawConfig)
if err == nil || !strings.Contains(err.Error(), "partition contains invalid characters") {
t.Errorf("expected partition validation error, got: %v", err)
}
})
t.Run("InvalidSSLProfileChars", func(t *testing.T) {
conn := NewWithClient(&Config{}, testLogger(), newMockF5Client())
rawConfig, _ := json.Marshal(map[string]string{
"host": "f5.test.com", "username": "admin", "password": "secret",
"ssl_profile": "prof; echo pwned",
})
err := conn.ValidateConfig(context.Background(), rawConfig)
if err == nil || !strings.Contains(err.Error(), "ssl_profile contains invalid characters") {
t.Errorf("expected ssl_profile validation error, got: %v", err)
}
})
t.Run("InvalidHostChars", func(t *testing.T) {
conn := NewWithClient(&Config{}, testLogger(), newMockF5Client())
rawConfig, _ := json.Marshal(map[string]string{
"host": "f5.test.com/../../etc/passwd", "username": "admin",
"password": "secret", "ssl_profile": "prof",
})
err := conn.ValidateConfig(context.Background(), rawConfig)
if err == nil || !strings.Contains(err.Error(), "host contains invalid characters") {
t.Errorf("expected host validation error, got: %v", err)
}
})
}
// --- DeployCertificate tests ---
const testCertPEM = `-----BEGIN CERTIFICATE-----
MIIBhTCCASugAwIBAgIRAJ1gCL7hBmSj6g0gYOr2FzMwCgYIKoZIzj0EAwIwEjEQ
MA4GA1UEChMHY2VydGN0bDAeFw0yNTAxMDEwMDAwMDBaFw0yNjAxMDEwMDAwMDBa
MBIxEDAOBgNVBAoTB2NlcnRjdGwwWTATBgcqhkjOPQIBBggqhkjOPQMBBwNCAAQr
H2kMjsgP+FZuyMjJLNfewN0EDkN0s4Lz2Y1IqFqD8DlGN3zI3lPQ7hGdQbiCklPk
1YXNmfmI6L2JKxB/d9Gxo1cwVTAOBgNVHQ8BAf8EBAMCBaAwEwYDVR0lBAwwCgYI
KwYBBQUHAwEwDAYDVR0TAQH/BAIwADAfBgNVHSMEGDAWgBQAAAAAAAAAAAAAAAAA
AAAAADAKBggqhkjOPQQDAgNIADBFAiEA4JIlRKL22y6c2JGwVtM60z2bGm9Lb9rq
3BSSLE8xF3UCIGSKd9bP0BBFIO20daxEP7g3/kTSSYpNMIG6yc6acdHH
-----END CERTIFICATE-----`
const testKeyPEM = `-----BEGIN EC PRIVATE KEY-----
MHQCAQEEIKj7N0fDjLaI9bGmJ/TY3PBvIxwclLOPIdOi6yWI2B5CoAcGBSuBBAAi
oWQDYgAEhLS0ynMvDJH5o0F5e6jVnXOBqRT2bHkVxQng+eqaXdY3gJoFIIxvR/q0
Vy4p3LZFQsKQfBwt3A8LLvOJY6E8bF4MNPrn0O1bQkeMjb8tSxdKfH0bARJdllD
h9oAPTR1
-----END EC PRIVATE KEY-----`
const testChainPEM = `-----BEGIN CERTIFICATE-----
MIIBYzCCAQmgAwIBAgIRAKR1G0hS1jBOQH2VtNTzpHowCgYIKoZIzj0EAwIwEjEQ
MA4GA1UEChMHY2VydGN0bDAeFw0yNTAxMDEwMDAwMDBaFw0yNjAxMDEwMDAwMDBa
MBIxEDAOBgNVBAoTB2NlcnRjdGwwWTATBgcqhkjOPQIBBggqhkjOPQMBBwNCAASE
tLTKcy8MkfmjQXl7qNWdc4GpFPZseRXFCeD56ppd1jeAmgUgjG9H+rRXLinctkVC
wpB8HC3cDwsu84ljoTxso0IwQDAOBgNVHQ8BAf8EBAMCAoQwDwYDVR0TAQH/BAUw
AwEB/zAdBgNVHQ4EFgQUAAAAAAAAAAAAAAAAAAAAAAAwCgYIKoZIzj0EAwIDSAAw
RQIhAJ2K5VVTBiWBrZgdxNthZ7FEqrpNL9LiuD3bWx0xCaoAAiAh9+2p4PQmNuqN
R7kSqe/p0W0VnFx1nOJz/sDyPM+2qg==
-----END CERTIFICATE-----`
func TestDeployCertificate(t *testing.T) {
t.Run("FullSuccessWithChain", func(t *testing.T) {
mock := newMockF5Client()
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.DeploymentRequest{
CertPEM: testCertPEM,
KeyPEM: testKeyPEM,
ChainPEM: testChainPEM,
}
result, err := conn.DeployCertificate(context.Background(), request)
if err != nil {
t.Fatalf("DeployCertificate failed: %v", err)
}
if !result.Success {
t.Fatalf("expected success, got: %s", result.Message)
}
// Verify call sequence
if !mock.hasCalled("Authenticate") {
t.Error("expected Authenticate call")
}
if mock.callCount("UploadFile") != 3 {
t.Errorf("expected 3 UploadFile calls (cert, key, chain), got %d", mock.callCount("UploadFile"))
}
if mock.callCount("InstallCert") != 2 { // cert + chain
t.Errorf("expected 2 InstallCert calls (cert + chain), got %d", mock.callCount("InstallCert"))
}
if mock.callCount("InstallKey") != 1 {
t.Errorf("expected 1 InstallKey call, got %d", mock.callCount("InstallKey"))
}
if !mock.hasCalled("CreateTransaction") {
t.Error("expected CreateTransaction call")
}
if !mock.hasCalled("UpdateSSLProfile") {
t.Error("expected UpdateSSLProfile call")
}
if !mock.hasCalled("CommitTransaction") {
t.Error("expected CommitTransaction call")
}
// Verify metadata
if result.Metadata["host"] != "f5.test.com" {
t.Errorf("expected host f5.test.com in metadata, got %s", result.Metadata["host"])
}
if result.Metadata["partition"] != "Common" {
t.Errorf("expected partition Common in metadata, got %s", result.Metadata["partition"])
}
if result.Metadata["ssl_profile"] != "myprofile" {
t.Errorf("expected ssl_profile myprofile in metadata, got %s", result.Metadata["ssl_profile"])
}
if result.Metadata["cert_object_name"] == "" {
t.Error("expected cert_object_name in metadata")
}
if result.Metadata["duration_ms"] == "" {
t.Error("expected duration_ms in metadata")
}
})
t.Run("SuccessWithoutChain", func(t *testing.T) {
mock := newMockF5Client()
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.DeploymentRequest{
CertPEM: testCertPEM,
KeyPEM: testKeyPEM,
}
result, err := conn.DeployCertificate(context.Background(), request)
if err != nil {
t.Fatalf("DeployCertificate failed: %v", err)
}
if !result.Success {
t.Fatalf("expected success, got: %s", result.Message)
}
// Should only upload cert + key (no chain)
if mock.callCount("UploadFile") != 2 {
t.Errorf("expected 2 UploadFile calls, got %d", mock.callCount("UploadFile"))
}
if mock.callCount("InstallCert") != 1 { // only cert, no chain
t.Errorf("expected 1 InstallCert call (cert only), got %d", mock.callCount("InstallCert"))
}
if result.Metadata["chain_object_name"] != "" {
t.Errorf("expected empty chain_object_name, got %s", result.Metadata["chain_object_name"])
}
})
t.Run("MissingKeyPEM", func(t *testing.T) {
mock := newMockF5Client()
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.DeploymentRequest{
CertPEM: testCertPEM,
}
result, err := conn.DeployCertificate(context.Background(), request)
if err == nil {
t.Fatal("expected error for missing KeyPEM")
}
if result.Success {
t.Error("expected Success=false")
}
if !strings.Contains(err.Error(), "KeyPEM") {
t.Errorf("expected KeyPEM in error, got: %v", err)
}
})
t.Run("AuthFailure", func(t *testing.T) {
mock := newMockF5Client()
mock.authenticateErr = fmt.Errorf("connection refused")
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "bad", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.DeploymentRequest{CertPEM: testCertPEM, KeyPEM: testKeyPEM}
result, err := conn.DeployCertificate(context.Background(), request)
if err == nil {
t.Fatal("expected error for auth failure")
}
if result.Success {
t.Error("expected Success=false")
}
if !strings.Contains(err.Error(), "authentication failed") {
t.Errorf("expected auth failure in error, got: %v", err)
}
})
t.Run("CertUploadFailure", func(t *testing.T) {
mock := newMockF5Client()
mock.uploadFileErr = fmt.Errorf("upload timeout")
mock.uploadFileErrOn = "cert"
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.DeploymentRequest{CertPEM: testCertPEM, KeyPEM: testKeyPEM}
_, err := conn.DeployCertificate(context.Background(), request)
if err == nil {
t.Fatal("expected error for cert upload failure")
}
// No cleanup needed — nothing installed yet
if len(mock.deletedCerts) > 0 || len(mock.deletedKeys) > 0 {
t.Error("expected no cleanup calls when upload fails before install")
}
})
t.Run("CertInstallFailure", func(t *testing.T) {
mock := newMockF5Client()
mock.installCertErr = fmt.Errorf("install failed")
// Don't set installCertErrOn — all InstallCert calls will fail
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.DeploymentRequest{CertPEM: testCertPEM, KeyPEM: testKeyPEM}
_, err := conn.DeployCertificate(context.Background(), request)
if err == nil {
t.Fatal("expected error for cert install failure")
}
if !strings.Contains(err.Error(), "cert crypto object") {
t.Errorf("expected cert install error, got: %v", err)
}
// No cleanup — cert install failed so nothing to clean up
// (the cert object wasn't successfully installed)
})
t.Run("KeyInstallFailure_CleansCert", func(t *testing.T) {
mock := newMockF5Client()
mock.installKeyErr = fmt.Errorf("key install failed")
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.DeploymentRequest{CertPEM: testCertPEM, KeyPEM: testKeyPEM}
_, err := conn.DeployCertificate(context.Background(), request)
if err == nil {
t.Fatal("expected error for key install failure")
}
// Should have cleaned up the cert that was installed
if len(mock.deletedCerts) != 1 {
t.Errorf("expected 1 cert cleanup, got %d", len(mock.deletedCerts))
}
})
t.Run("TransactionCreateFailure_CleansObjects", func(t *testing.T) {
mock := newMockF5Client()
mock.createTransactionErr = fmt.Errorf("transaction service unavailable")
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.DeploymentRequest{CertPEM: testCertPEM, KeyPEM: testKeyPEM}
_, err := conn.DeployCertificate(context.Background(), request)
if err == nil {
t.Fatal("expected error for transaction create failure")
}
// Should clean up cert + key
if len(mock.deletedCerts) != 1 {
t.Errorf("expected 1 cert cleanup, got %d", len(mock.deletedCerts))
}
if len(mock.deletedKeys) != 1 {
t.Errorf("expected 1 key cleanup, got %d", len(mock.deletedKeys))
}
})
t.Run("ProfileUpdateFailure_CleansObjects", func(t *testing.T) {
mock := newMockF5Client()
mock.updateSSLProfileErr = fmt.Errorf("profile not found")
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "nonexistent"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.DeploymentRequest{CertPEM: testCertPEM, KeyPEM: testKeyPEM, ChainPEM: testChainPEM}
_, err := conn.DeployCertificate(context.Background(), request)
if err == nil {
t.Fatal("expected error for profile update failure")
}
// Should clean up cert + chain + key
if len(mock.deletedCerts) != 2 { // cert + chain
t.Errorf("expected 2 cert cleanups (cert + chain), got %d", len(mock.deletedCerts))
}
if len(mock.deletedKeys) != 1 {
t.Errorf("expected 1 key cleanup, got %d", len(mock.deletedKeys))
}
})
t.Run("CommitFailure_CleansObjects", func(t *testing.T) {
mock := newMockF5Client()
mock.commitTransactionErr = fmt.Errorf("transaction validation failed")
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.DeploymentRequest{CertPEM: testCertPEM, KeyPEM: testKeyPEM}
_, err := conn.DeployCertificate(context.Background(), request)
if err == nil {
t.Fatal("expected error for commit failure")
}
if !strings.Contains(err.Error(), "commit") {
t.Errorf("expected commit error, got: %v", err)
}
// Should clean up installed objects
if len(mock.deletedCerts) < 1 {
t.Error("expected cert cleanup on commit failure")
}
if len(mock.deletedKeys) < 1 {
t.Error("expected key cleanup on commit failure")
}
})
t.Run("MetadataVerification", func(t *testing.T) {
mock := newMockF5Client()
cfg := &Config{Host: "bigip.prod.internal", Port: 8443, Username: "admin", Password: "secret", Partition: "Production", SSLProfile: "api-ssl"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.DeploymentRequest{CertPEM: testCertPEM, KeyPEM: testKeyPEM}
result, err := conn.DeployCertificate(context.Background(), request)
if err != nil {
t.Fatalf("DeployCertificate failed: %v", err)
}
if result.Metadata["host"] != "bigip.prod.internal" {
t.Errorf("expected host bigip.prod.internal, got %s", result.Metadata["host"])
}
if result.Metadata["partition"] != "Production" {
t.Errorf("expected partition Production, got %s", result.Metadata["partition"])
}
if result.Metadata["ssl_profile"] != "api-ssl" {
t.Errorf("expected ssl_profile api-ssl, got %s", result.Metadata["ssl_profile"])
}
if !strings.HasPrefix(result.Metadata["cert_object_name"], "certctl-cert-") {
t.Errorf("expected cert_object_name to start with certctl-cert-, got %s", result.Metadata["cert_object_name"])
}
if result.TargetAddress != "bigip.prod.internal:8443" {
t.Errorf("expected target address bigip.prod.internal:8443, got %s", result.TargetAddress)
}
})
}
// --- ValidateDeployment tests ---
func TestValidateDeployment(t *testing.T) {
t.Run("Success", func(t *testing.T) {
mock := newMockF5Client()
mock.getSSLProfileResult = &SSLProfileInfo{
Name: "myprofile",
Cert: "/Common/certctl-cert-1234567890",
Key: "/Common/certctl-key-1234567890",
Chain: "/Common/certctl-chain-1234567890",
}
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.ValidationRequest{
CertificateID: "mc-test-cert",
Serial: "abc123",
}
result, err := conn.ValidateDeployment(context.Background(), request)
if err != nil {
t.Fatalf("ValidateDeployment failed: %v", err)
}
if !result.Valid {
t.Fatalf("expected valid, got: %s", result.Message)
}
if result.Metadata["current_cert"] != "/Common/certctl-cert-1234567890" {
t.Errorf("expected cert in metadata, got %s", result.Metadata["current_cert"])
}
})
t.Run("ProfileNotFound", func(t *testing.T) {
mock := newMockF5Client()
mock.getSSLProfileErr = fmt.Errorf("object not found (404)")
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "nonexistent"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.ValidationRequest{CertificateID: "mc-test", Serial: "abc"}
result, err := conn.ValidateDeployment(context.Background(), request)
if err == nil {
t.Fatal("expected error for profile not found")
}
if result.Valid {
t.Error("expected Valid=false")
}
})
t.Run("AuthFailure", func(t *testing.T) {
mock := newMockF5Client()
mock.authenticateErr = fmt.Errorf("auth failed")
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "bad", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.ValidationRequest{CertificateID: "mc-test", Serial: "abc"}
_, err := conn.ValidateDeployment(context.Background(), request)
if err == nil {
t.Fatal("expected error for auth failure")
}
if !strings.Contains(err.Error(), "authentication failed") {
t.Errorf("expected auth failure error, got: %v", err)
}
})
t.Run("UnexpectedCert_StillValid", func(t *testing.T) {
mock := newMockF5Client()
mock.getSSLProfileResult = &SSLProfileInfo{
Name: "myprofile",
Cert: "/Common/some-other-cert",
Key: "/Common/some-other-key",
}
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.ValidationRequest{CertificateID: "mc-test", Serial: "abc"}
result, err := conn.ValidateDeployment(context.Background(), request)
if err != nil {
t.Fatalf("ValidateDeployment failed: %v", err)
}
// We report what's there — it's valid (profile exists with a cert)
if !result.Valid {
t.Error("expected Valid=true (profile has a cert)")
}
if result.Metadata["current_cert"] != "/Common/some-other-cert" {
t.Errorf("expected current cert reported, got %s", result.Metadata["current_cert"])
}
})
t.Run("EmptyCertField", func(t *testing.T) {
mock := newMockF5Client()
mock.getSSLProfileResult = &SSLProfileInfo{
Name: "myprofile",
Cert: "",
Key: "",
}
cfg := &Config{Host: "f5.test.com", Port: 443, Username: "admin", Password: "secret", Partition: "Common", SSLProfile: "myprofile"}
conn := NewWithClient(cfg, testLogger(), mock)
request := target.ValidationRequest{CertificateID: "mc-test", Serial: "abc"}
result, err := conn.ValidateDeployment(context.Background(), request)
if err == nil {
t.Fatal("expected error for empty cert field")
}
if result.Valid {
t.Error("expected Valid=false")
}
if !strings.Contains(err.Error(), "no certificate configured") {
t.Errorf("expected 'no certificate configured' error, got: %v", err)
}
})
}
// --- Helper tests ---
func TestObjectName(t *testing.T) {
name1 := objectName("cert")
name2 := objectName("cert")
if !strings.HasPrefix(name1, "certctl-cert-") {
t.Errorf("expected prefix certctl-cert-, got %s", name1)
}
// Nanosecond timestamps should produce different names
if name1 == name2 {
t.Error("expected unique names from nanosecond timestamps")
}
}
func TestPartitionPath(t *testing.T) {
path := partitionPath("Common", "certctl-cert-123")
if path != "/Common/certctl-cert-123" {
t.Errorf("expected /Common/certctl-cert-123, got %s", path)
}
path = partitionPath("Production", "my-cert")
if path != "/Production/my-cert" {
t.Errorf("expected /Production/my-cert, got %s", path)
}
}
func TestCleanup_MixedResults(t *testing.T) {
mock := newMockF5Client()
mock.deleteCertErr = fmt.Errorf("cert in use") // cert delete fails
// key delete succeeds (nil error)
cfg := &Config{Host: "f5.test.com", Port: 443, Partition: "Common"}
conn := NewWithClient(cfg, testLogger(), mock)
// Should not panic and should attempt all deletions
conn.cleanupCryptoObjects(context.Background(), "Common",
[]string{"cert1", "cert2"},
[]string{"key1"},
)
// Both cert deletes attempted despite errors
if len(mock.deletedCerts) != 2 {
t.Errorf("expected 2 cert delete attempts, got %d", len(mock.deletedCerts))
}
if len(mock.deletedKeys) != 1 {
t.Errorf("expected 1 key delete attempt, got %d", len(mock.deletedKeys))
}
}
func TestCleanup_EmptyNames(t *testing.T) {
mock := newMockF5Client()
cfg := &Config{Host: "f5.test.com", Port: 443, Partition: "Common"}
conn := NewWithClient(cfg, testLogger(), mock)
// Empty names should be skipped
conn.cleanupCryptoObjects(context.Background(), "Common",
[]string{"", "cert1", ""},
[]string{"", ""},
)
if len(mock.deletedCerts) != 1 {
t.Errorf("expected 1 cert delete (skipping empties), got %d", len(mock.deletedCerts))
}
if len(mock.deletedKeys) != 0 {
t.Errorf("expected 0 key deletes (all empty), got %d", len(mock.deletedKeys))
}
}
func TestNew_NilConfig(t *testing.T) {
_, err := New(nil, testLogger())
if err == nil {
t.Fatal("expected error for nil config")
}
if !strings.Contains(err.Error(), "config is required") {
t.Errorf("expected 'config is required' error, got: %v", err)
}
}
internal/connector/target/iis/iis.go
+566 -88
View File
@@ -2,101 +2,241 @@ package iis
import (
"context"
"crypto/rand"
"crypto/sha1"
"crypto/x509"
"encoding/base64"
"encoding/hex"
"encoding/json"
"encoding/pem"
"fmt"
"log/slog"
"runtime"
"os"
"os/exec"
"regexp"
"strings"
"time"
"github.com/shankar0123/certctl/internal/connector/target"
pkcs12 "software.sslmate.com/src/go-pkcs12"
)
// Config represents the IIS deployment target configuration.
// This configuration is for Windows agents that manage IIS servers.
// Supports two modes:
// - "local" (default): runs PowerShell locally on a Windows agent
// - "winrm": connects to a remote Windows server via WinRM (proxy agent pattern)
type Config struct {
Hostname string `json:"hostname"` // Target hostname or IP
SiteName string `json:"site_name"` // IIS site name (e.g., "Default Web Site")
CertStore string `json:"cert_store"` // Windows cert store (e.g., "My", "WebHosting")
BindingInfo string `json:"binding_info"` // Binding info (e.g., "*.example.com")
Port int `json:"port"` // HTTPS port (default 443)
SNI bool `json:"sni"` // Enable Server Name Indication
IPAddress string `json:"ip_address"` // Bind to specific IP (default "*")
Mode string `json:"mode"` // "local" (default) or "winrm"
// WinRM settings (only used when Mode is "winrm")
WinRM WinRMConfig `json:"winrm"`
}
// PowerShellExecutor abstracts PowerShell command execution for testability.
// On real Windows deployments, the realExecutor calls powershell.exe directly.
// Tests inject a mock executor to verify command construction without Windows.
type PowerShellExecutor interface {
Execute(ctx context.Context, script string) (string, error)
}
// realExecutor calls powershell.exe on the local system.
type realExecutor struct{}
func (e *realExecutor) Execute(ctx context.Context, script string) (string, error) {
cmd := exec.CommandContext(ctx, "powershell.exe", "-NoProfile", "-NonInteractive", "-Command", script)
output, err := cmd.CombinedOutput()
return string(output), err
}
// Connector implements the target.Connector interface for IIS (Internet Information Services).
// This connector runs on Windows agents and manages certificate deployment via IIS.
// This connector runs on Windows agents and manages certificate deployment via PowerShell.
//
// IIS certificate management requires:
// - Windows Server with IIS installed
// - PowerShell execution available
// - Administrative privileges
// - Windows Server with IIS installed
// - PowerShell execution available
// - Administrative privileges
//
// TODO: Implement actual PowerShell command execution for:
// - Certificate import: Import-PfxCertificate
// - IIS binding update: New-WebBinding, Set-WebBinding
// - Validation: Get-WebBinding
// Deployment flow:
// 1. Convert PEM cert+key to PFX (PKCS#12) format via go-pkcs12
// 2. Import PFX to Windows certificate store via Import-PfxCertificate
// 3. Compute SHA-1 thumbprint (IIS certificate identifier)
// 4. Update IIS HTTPS binding via New-WebBinding + AddSslCertificate
// 5. Verify binding is active via Get-WebBinding
type Connector struct {
config *Config
logger *slog.Logger
config *Config
logger *slog.Logger
executor PowerShellExecutor
}
// New creates a new IIS target connector with the given configuration and logger.
func New(config *Config, logger *slog.Logger) *Connector {
// In "local" mode (default), uses the real PowerShell executor.
// In "winrm" mode, creates a WinRM client for remote execution.
func New(config *Config, logger *slog.Logger) (*Connector, error) {
mode := config.Mode
if mode == "" {
mode = "local"
}
var executor PowerShellExecutor
switch mode {
case "local":
executor = &realExecutor{}
case "winrm":
winrmExec, err := newWinRMExecutor(&config.WinRM)
if err != nil {
return nil, fmt.Errorf("failed to initialize WinRM executor: %w", err)
}
executor = winrmExec
default:
return nil, fmt.Errorf("unsupported IIS connector mode %q (must be 'local' or 'winrm')", mode)
}
return &Connector{
config: config,
logger: logger,
config: config,
logger: logger,
executor: executor,
}, nil
}
// NewWithExecutor creates a new IIS target connector with an injected executor.
// Used in tests to mock PowerShell execution on non-Windows platforms.
func NewWithExecutor(config *Config, logger *slog.Logger, executor PowerShellExecutor) *Connector {
return &Connector{
config: config,
logger: logger,
executor: executor,
}
}
// validIISName matches safe IIS site names and cert store names.
// Allows alphanumeric, spaces, underscores, hyphens, and dots.
var validIISName = regexp.MustCompile(`^[a-zA-Z0-9 _\-\.]+$`)
// validateIISName checks that an IIS name field contains only safe characters.
// This prevents PowerShell injection via malicious site or store names.
func validateIISName(name, field string) error {
if name == "" {
return fmt.Errorf("%s is required", field)
}
if len(name) > 256 {
return fmt.Errorf("%s exceeds maximum length (256 characters)", field)
}
if !validIISName.MatchString(name) {
return fmt.Errorf("%s contains invalid characters (allowed: alphanumeric, space, underscore, hyphen, dot)", field)
}
return nil
}
// validIPOrWildcard matches valid IP addresses or the wildcard "*".
var validIPOrWildcard = regexp.MustCompile(`^(\*|(\d{1,3}\.){3}\d{1,3})$`)
// ValidateConfig checks that the IIS configuration is valid and accessible.
// It verifies that we're on Windows and that the IIS site exists.
//
// TODO: Implement actual PowerShell checks.
// It verifies field values, PowerShell availability, and optionally checks that
// the IIS site exists and the cert store is accessible.
func (c *Connector) ValidateConfig(ctx context.Context, rawConfig json.RawMessage) error {
var cfg Config
if err := json.Unmarshal(rawConfig, &cfg); err != nil {
return fmt.Errorf("invalid IIS config: %w", err)
}
if cfg.SiteName == "" || cfg.CertStore == "" {
return fmt.Errorf("IIS site_name and cert_store are required")
// Validate required fields
if err := validateIISName(cfg.SiteName, "site_name"); err != nil {
return err
}
if err := validateIISName(cfg.CertStore, "cert_store"); err != nil {
return err
}
// Verify we're on Windows
if runtime.GOOS != "windows" {
return fmt.Errorf("IIS connector only runs on Windows, got %s", runtime.GOOS)
// Apply defaults
if cfg.Port == 0 {
cfg.Port = 443
}
if cfg.IPAddress == "" {
cfg.IPAddress = "*"
}
// Validate port range
if cfg.Port < 1 || cfg.Port > 65535 {
return fmt.Errorf("port must be between 1 and 65535, got %d", cfg.Port)
}
// Validate IP address format
if !validIPOrWildcard.MatchString(cfg.IPAddress) {
return fmt.Errorf("ip_address must be a valid IPv4 address or '*', got %q", cfg.IPAddress)
}
// Validate binding_info if provided (safe characters only)
if cfg.BindingInfo != "" {
if len(cfg.BindingInfo) > 512 {
return fmt.Errorf("binding_info exceeds maximum length (512 characters)")
}
// Allow typical binding chars: alphanumeric, *, :, ., -
validBinding := regexp.MustCompile(`^[a-zA-Z0-9\*\:\.\-]+$`)
if !validBinding.MatchString(cfg.BindingInfo) {
return fmt.Errorf("binding_info contains invalid characters")
}
}
// Apply mode default
if cfg.Mode == "" {
cfg.Mode = "local"
}
if cfg.Mode != "local" && cfg.Mode != "winrm" {
return fmt.Errorf("unsupported mode %q (must be 'local' or 'winrm')", cfg.Mode)
}
c.logger.Info("validating IIS configuration",
"site_name", cfg.SiteName,
"cert_store", cfg.CertStore,
"hostname", cfg.Hostname)
"hostname", cfg.Hostname,
"port", cfg.Port,
"mode", cfg.Mode)
// TODO: Implement PowerShell check
// In production:
// 1. Run PowerShell command: Get-IISSite -Name {SiteName}
// 2. Verify site exists and is running
// 3. Check cert store: Get-Item -Path "Cert:\LocalMachine\{CertStore}"
// Verify PowerShell is available (only in local mode — WinRM handles this remotely)
if cfg.Mode == "local" {
if _, err := exec.LookPath("powershell.exe"); err != nil {
return fmt.Errorf("powershell.exe not found in PATH: %w", err)
}
}
c.logger.Warn("IIS validation not yet fully implemented",
"site_name", cfg.SiteName)
// Verify IIS site exists
siteCheckScript := fmt.Sprintf(`Get-Website -Name '%s' | Select-Object -ExpandProperty Name`, cfg.SiteName)
output, err := c.executor.Execute(ctx, siteCheckScript)
if err != nil {
return fmt.Errorf("IIS site %q not found or inaccessible: %s (error: %w)", cfg.SiteName, strings.TrimSpace(output), err)
}
// Verify cert store is accessible
storeCheckScript := fmt.Sprintf(`Test-Path 'Cert:\LocalMachine\%s'`, cfg.CertStore)
output, err = c.executor.Execute(ctx, storeCheckScript)
if err != nil || !strings.Contains(strings.TrimSpace(output), "True") {
return fmt.Errorf("certificate store %q is not accessible: %s", cfg.CertStore, strings.TrimSpace(output))
}
c.config = &cfg
c.logger.Info("IIS configuration validated",
"site_name", cfg.SiteName,
"cert_store", cfg.CertStore)
return nil
}
// DeployCertificate imports a certificate to the Windows certificate store and updates
// the IIS binding to use the new certificate.
//
// The IIS deployment process (via PowerShell):
// 1. Create a temporary PFX file from the certificate and existing private key
// (Note: The private key is managed by the agent, not provided by the control plane)
// 2. Import the PFX to the Windows certificate store (My store by default)
// 3. Get the certificate thumbprint
// 4. Update the IIS binding to use the new certificate by thumbprint
// 5. Verify the binding is active
//
// TODO: Implement actual PowerShell commands:
// - Import-PfxCertificate -FilePath {pfxPath} -CertStoreLocation "Cert:\LocalMachine\My"
// - Get-ChildItem -Path "Cert:\LocalMachine\My" | Where {$_.Subject -eq "CN=..."}
// - Set-WebBinding -Name {SiteName} -BindingInformation "{BindingInfo}" -Protocol https -SslFlags 1 -CertificateThumbprint {thumbprint}
// Deployment flow:
// 1. Convert PEM cert+key+chain to PFX format (go-pkcs12 with random password)
// 2. Write PFX to temp file (cleaned up on exit, even on error)
// 3. Compute SHA-1 thumbprint from DER cert (matches Windows certutil output)
// 4. Import PFX to Windows cert store via Import-PfxCertificate
// 5. Update IIS HTTPS binding via New-WebBinding + AddSslCertificate
// 6. Return result with thumbprint in metadata
func (c *Connector) DeployCertificate(ctx context.Context, request target.DeploymentRequest) (*target.DeploymentResult, error) {
c.logger.Info("deploying certificate to IIS",
"site_name", c.config.SiteName,
@@ -104,44 +244,204 @@ func (c *Connector) DeployCertificate(ctx context.Context, request target.Deploy
startTime := time.Now()
// TODO: Implement IIS certificate deployment
// In production:
// 1. Create temporary PFX from CertPEM and ChainPEM
// (Private key should already exist on the agent)
// 2. Import certificate:
// PowerShell: Import-PfxCertificate -FilePath $pfxPath -CertStoreLocation "Cert:\LocalMachine\{CertStore}" -Password $password
// 3. Get certificate thumbprint:
// PowerShell: (Get-ChildItem -Path "Cert:\LocalMachine\{CertStore}" | Where {$_.Subject -like "*CN=*"}).Thumbprint
// 4. Update IIS binding:
// PowerShell: Set-WebBinding -Name "{SiteName}" -BindingInformation "{BindingInfo}:443:*.example.com" -Protocol https -CertificateThumbprint $thumbprint
// 5. Remove temporary PFX file
// Validate we have a private key (required for PFX creation)
if request.KeyPEM == "" {
errMsg := "private key (KeyPEM) is required for IIS deployment"
c.logger.Error("deployment failed", "error", errMsg)
return &target.DeploymentResult{
Success: false,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Step 1: Create PFX from PEM inputs
pfxPassword, err := generateRandomPassword(32)
if err != nil {
errMsg := fmt.Sprintf("failed to generate PFX password: %v", err)
c.logger.Error("deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
pfxData, err := createPFX(request.CertPEM, request.KeyPEM, request.ChainPEM, pfxPassword)
if err != nil {
errMsg := fmt.Sprintf("failed to create PFX: %v", err)
c.logger.Error("PFX creation failed", "error", err)
return &target.DeploymentResult{
Success: false,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Step 2+3: Compute thumbprint and import PFX
// In local mode: write PFX to temp file, import via file path
// In WinRM mode: base64-encode PFX, decode on remote side to temp file, import, clean up
thumbprint, err := computeThumbprint(request.CertPEM)
if err != nil {
errMsg := fmt.Sprintf("failed to compute certificate thumbprint: %v", err)
c.logger.Error("deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
c.logger.Debug("certificate thumbprint computed", "thumbprint", thumbprint)
// Step 4: Import PFX to Windows certificate store
var importScript string
mode := c.config.Mode
if mode == "" {
mode = "local"
}
if mode == "winrm" {
// WinRM mode: base64-encode PFX, decode on remote, import, cleanup
pfxBase64 := base64.StdEncoding.EncodeToString(pfxData)
importScript = fmt.Sprintf(
`$pfxPath = [System.IO.Path]::GetTempFileName() + '.pfx'; `+
`[System.IO.File]::WriteAllBytes($pfxPath, [System.Convert]::FromBase64String('%s')); `+
`try { `+
`$password = ConvertTo-SecureString -String '%s' -AsPlainText -Force; `+
`Import-PfxCertificate -FilePath $pfxPath -CertStoreLocation 'Cert:\LocalMachine\%s' -Password $password `+
`} finally { Remove-Item -Path $pfxPath -Force -ErrorAction SilentlyContinue }`,
pfxBase64, pfxPassword, c.config.CertStore,
)
} else {
// Local mode: write PFX to local temp file
tmpFile, fileErr := os.CreateTemp("", "certctl-*.pfx")
if fileErr != nil {
errMsg := fmt.Sprintf("failed to create temp PFX file: %v", fileErr)
c.logger.Error("deployment failed", "error", fileErr)
return &target.DeploymentResult{
Success: false,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
pfxPath := tmpFile.Name()
defer os.Remove(pfxPath) // Always clean up temp PFX
if _, writeErr := tmpFile.Write(pfxData); writeErr != nil {
tmpFile.Close()
errMsg := fmt.Sprintf("failed to write temp PFX file: %v", writeErr)
c.logger.Error("deployment failed", "error", writeErr)
return &target.DeploymentResult{
Success: false,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
tmpFile.Close()
importScript = fmt.Sprintf(
`$password = ConvertTo-SecureString -String '%s' -AsPlainText -Force; `+
`Import-PfxCertificate -FilePath '%s' -CertStoreLocation 'Cert:\LocalMachine\%s' -Password $password`,
pfxPassword, pfxPath, c.config.CertStore,
)
}
output, err := c.executor.Execute(ctx, importScript)
if err != nil {
errMsg := fmt.Sprintf("PFX import failed: %v (output: %s)", err, strings.TrimSpace(output))
c.logger.Error("PFX import failed",
"error", err,
"output", strings.TrimSpace(output),
"cert_store", c.config.CertStore)
return &target.DeploymentResult{
Success: false,
TargetAddress: fmt.Sprintf("%s (IIS: %s)", c.config.Hostname, c.config.SiteName),
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
c.logger.Info("PFX imported to certificate store",
"cert_store", c.config.CertStore,
"thumbprint", thumbprint)
// Step 5: Update IIS HTTPS binding
port := c.config.Port
if port == 0 {
port = 443
}
ipAddress := c.config.IPAddress
if ipAddress == "" {
ipAddress = "*"
}
hostHeader := c.config.BindingInfo
sniFlag := 0
if c.config.SNI {
sniFlag = 1
}
bindingScript := fmt.Sprintf(
// Remove existing HTTPS binding on this port (if any), then create new one
`$existing = Get-WebBinding -Name '%s' -Protocol 'https' -Port %d -ErrorAction SilentlyContinue; `+
`if ($existing) { $existing | Remove-WebBinding }; `+
`New-WebBinding -Name '%s' -Protocol 'https' -Port %d -IPAddress '%s' -HostHeader '%s' -SslFlags %d; `+
`$binding = Get-WebBinding -Name '%s' -Protocol 'https' -Port %d; `+
`$binding.AddSslCertificate('%s', '%s')`,
c.config.SiteName, port,
c.config.SiteName, port, ipAddress, hostHeader, sniFlag,
c.config.SiteName, port,
thumbprint, c.config.CertStore,
)
output, err = c.executor.Execute(ctx, bindingScript)
if err != nil {
errMsg := fmt.Sprintf("IIS binding update failed: %v (output: %s)", err, strings.TrimSpace(output))
c.logger.Error("IIS binding update failed",
"error", err,
"output", strings.TrimSpace(output),
"site_name", c.config.SiteName)
// Cert is imported but binding failed — partial success
return &target.DeploymentResult{
Success: false,
TargetAddress: fmt.Sprintf("%s (IIS: %s)", c.config.Hostname, c.config.SiteName),
Message: errMsg,
DeployedAt: time.Now(),
Metadata: map[string]string{
"thumbprint": thumbprint,
"cert_store": c.config.CertStore,
"import_success": "true",
"binding_error": strings.TrimSpace(output),
},
}, fmt.Errorf("%s", errMsg)
}
deploymentDuration := time.Since(startTime)
c.logger.Warn("IIS deployment not yet implemented",
"site_name", c.config.SiteName)
c.logger.Info("certificate deployed to IIS successfully",
"duration", deploymentDuration.String(),
"site_name", c.config.SiteName,
"thumbprint", thumbprint)
return &target.DeploymentResult{
Success: true,
TargetAddress: fmt.Sprintf("%s (IIS: %s)", c.config.Hostname, c.config.SiteName),
DeploymentID: fmt.Sprintf("iis-%d", time.Now().Unix()),
Message: "Certificate deployment to IIS initiated (stub)",
DeploymentID: fmt.Sprintf("iis-%s-%d", thumbprint[:8], time.Now().Unix()),
Message: "Certificate imported and IIS binding updated successfully",
DeployedAt: time.Now(),
Metadata: map[string]string{
"hostname": c.config.Hostname,
"site_name": c.config.SiteName,
"cert_store": c.config.CertStore,
"thumbprint": thumbprint,
"port": fmt.Sprintf("%d", port),
"sni": fmt.Sprintf("%t", c.config.SNI),
"duration_ms": fmt.Sprintf("%d", deploymentDuration.Milliseconds()),
},
}, nil
}
// ValidateDeployment verifies that the certificate is properly deployed in IIS.
// It checks the IIS binding configuration to ensure it's active with the correct certificate.
//
// TODO: Implement actual PowerShell validation.
// PowerShell command:
// - Get-IISSiteBinding -Name {SiteName} | Where {$_.protocol -eq "https"}
// It checks the IIS binding to ensure it's active with the correct certificate thumbprint.
func (c *Connector) ValidateDeployment(ctx context.Context, request target.ValidationRequest) (*target.ValidationResult, error) {
c.logger.Info("validating IIS deployment",
"certificate_id", request.CertificateID,
@@ -150,33 +450,211 @@ func (c *Connector) ValidateDeployment(ctx context.Context, request target.Valid
startTime := time.Now()
// TODO: Implement IIS deployment validation
// In production:
// 1. Query IIS binding status:
// PowerShell: Get-WebBinding -Name "{SiteName}" -Protocol "https"
// 2. Verify binding exists and is active
// 3. Extract certificate thumbprint from binding
// 4. Query certificate store to verify thumbprint matches expected certificate
// 5. Check certificate validity dates and key match
port := c.config.Port
if port == 0 {
port = 443
}
// Query IIS binding for HTTPS on the configured port
bindingScript := fmt.Sprintf(
`$binding = Get-WebBinding -Name '%s' -Protocol 'https' -Port %d -ErrorAction SilentlyContinue; `+
`if ($binding) { $binding.certificateHash } else { 'NO_BINDING' }`,
c.config.SiteName, port,
)
output, err := c.executor.Execute(ctx, bindingScript)
if err != nil {
errMsg := fmt.Sprintf("failed to query IIS binding: %v (output: %s)", err, strings.TrimSpace(output))
c.logger.Error("validation failed", "error", err, "output", strings.TrimSpace(output))
return &target.ValidationResult{
Valid: false,
Serial: request.Serial,
TargetAddress: fmt.Sprintf("%s (IIS: %s)", c.config.Hostname, c.config.SiteName),
Message: errMsg,
ValidatedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
bindingHash := strings.TrimSpace(output)
if bindingHash == "NO_BINDING" || bindingHash == "" {
errMsg := fmt.Sprintf("no HTTPS binding found on IIS site %q port %d", c.config.SiteName, port)
c.logger.Error("validation failed", "error", errMsg)
return &target.ValidationResult{
Valid: false,
Serial: request.Serial,
TargetAddress: fmt.Sprintf("%s (IIS: %s)", c.config.Hostname, c.config.SiteName),
Message: errMsg,
ValidatedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Verify the certificate exists in the store
certCheckScript := fmt.Sprintf(
`$cert = Get-ChildItem -Path 'Cert:\LocalMachine\%s\%s' -ErrorAction SilentlyContinue; `+
`if ($cert -and $cert.NotAfter -gt (Get-Date)) { 'VALID' } `+
`elseif ($cert) { 'EXPIRED' } `+
`else { 'NOT_FOUND' }`,
c.config.CertStore, bindingHash,
)
output, err = c.executor.Execute(ctx, certCheckScript)
if err != nil {
errMsg := fmt.Sprintf("failed to verify certificate in store: %v", err)
c.logger.Error("validation failed", "error", err)
return &target.ValidationResult{
Valid: false,
Serial: request.Serial,
TargetAddress: fmt.Sprintf("%s (IIS: %s)", c.config.Hostname, c.config.SiteName),
Message: errMsg,
ValidatedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
certStatus := strings.TrimSpace(output)
validationDuration := time.Since(startTime)
c.logger.Warn("IIS validation not yet implemented",
"site_name", c.config.SiteName)
switch certStatus {
case "VALID":
c.logger.Info("IIS deployment validated successfully",
"duration", validationDuration.String(),
"thumbprint", bindingHash)
return &target.ValidationResult{
Valid: true,
Serial: request.Serial,
TargetAddress: fmt.Sprintf("%s (IIS: %s)", c.config.Hostname, c.config.SiteName),
Message: "Certificate is bound to IIS site and valid",
ValidatedAt: time.Now(),
Metadata: map[string]string{
"thumbprint": bindingHash,
"site_name": c.config.SiteName,
"cert_store": c.config.CertStore,
"duration_ms": fmt.Sprintf("%d", validationDuration.Milliseconds()),
},
}, nil
return &target.ValidationResult{
Valid: true,
Serial: request.Serial,
TargetAddress: fmt.Sprintf("%s (IIS: %s)", c.config.Hostname, c.config.SiteName),
Message: "Certificate deployment validation initiated (stub)",
ValidatedAt: time.Now(),
Metadata: map[string]string{
"hostname": c.config.Hostname,
"site_name": c.config.SiteName,
"duration_ms": fmt.Sprintf("%d", validationDuration.Milliseconds()),
},
}, nil
case "EXPIRED":
errMsg := fmt.Sprintf("certificate %s is expired in store %q", bindingHash, c.config.CertStore)
c.logger.Error("validation failed: certificate expired", "thumbprint", bindingHash)
return &target.ValidationResult{
Valid: false,
Serial: request.Serial,
TargetAddress: fmt.Sprintf("%s (IIS: %s)", c.config.Hostname, c.config.SiteName),
Message: errMsg,
ValidatedAt: time.Now(),
Metadata: map[string]string{
"thumbprint": bindingHash,
"status": "expired",
},
}, fmt.Errorf("%s", errMsg)
default: // NOT_FOUND or unexpected
errMsg := fmt.Sprintf("certificate %s not found in store %q", bindingHash, c.config.CertStore)
c.logger.Error("validation failed: certificate not in store", "thumbprint", bindingHash)
return &target.ValidationResult{
Valid: false,
Serial: request.Serial,
TargetAddress: fmt.Sprintf("%s (IIS: %s)", c.config.Hostname, c.config.SiteName),
Message: errMsg,
ValidatedAt: time.Now(),
Metadata: map[string]string{
"thumbprint": bindingHash,
"status": "not_found",
},
}, fmt.Errorf("%s", errMsg)
}
}
// executePowerShellCommand will be implemented in V3 when IIS target connector ships.
// Pattern: exec.CommandContext(ctx, "powershell", "-NoProfile", "-Command", psCommand)
// createPFX converts PEM-encoded cert, key, and chain into PKCS#12 (PFX) format.
// IIS requires PFX for certificate import. Uses go-pkcs12 Modern encoder
// with strong encryption (same library used by M27 export service).
func createPFX(certPEM, keyPEM, chainPEM string, password string) ([]byte, error) {
// Parse leaf certificate
certBlock, _ := pem.Decode([]byte(certPEM))
if certBlock == nil || certBlock.Type != "CERTIFICATE" {
return nil, fmt.Errorf("failed to decode certificate PEM")
}
leafCert, err := x509.ParseCertificate(certBlock.Bytes)
if err != nil {
return nil, fmt.Errorf("failed to parse leaf certificate: %w", err)
}
// Parse private key (supports PKCS#8, PKCS#1 RSA, and EC)
keyBlock, _ := pem.Decode([]byte(keyPEM))
if keyBlock == nil {
return nil, fmt.Errorf("failed to decode private key PEM")
}
privateKey, err := parsePrivateKey(keyBlock.Bytes)
if err != nil {
return nil, fmt.Errorf("failed to parse private key: %w", err)
}
// Parse CA chain certificates (optional)
var caCerts []*x509.Certificate
if chainPEM != "" {
rest := []byte(chainPEM)
for {
var block *pem.Block
block, rest = pem.Decode(rest)
if block == nil {
break
}
if block.Type != "CERTIFICATE" {
continue
}
caCert, err := x509.ParseCertificate(block.Bytes)
if err != nil {
return nil, fmt.Errorf("failed to parse CA certificate: %w", err)
}
caCerts = append(caCerts, caCert)
}
}
// Encode as PKCS#12 with Modern encryption
pfxData, err := pkcs12.Modern.Encode(privateKey, leafCert, caCerts, password)
if err != nil {
return nil, fmt.Errorf("failed to encode PKCS#12: %w", err)
}
return pfxData, nil
}
// parsePrivateKey attempts to parse a DER-encoded private key.
// Tries PKCS#8, PKCS#1 RSA, and EC formats in order.
func parsePrivateKey(der []byte) (interface{}, error) {
if key, err := x509.ParsePKCS8PrivateKey(der); err == nil {
return key, nil
}
if key, err := x509.ParsePKCS1PrivateKey(der); err == nil {
return key, nil
}
if key, err := x509.ParseECPrivateKey(der); err == nil {
return key, nil
}
return nil, fmt.Errorf("unsupported private key format")
}
// computeThumbprint calculates the SHA-1 thumbprint of a PEM-encoded certificate.
// IIS uses SHA-1 thumbprints as the primary certificate identifier.
// Returns uppercase hex string matching Windows certutil output.
func computeThumbprint(certPEM string) (string, error) {
block, _ := pem.Decode([]byte(certPEM))
if block == nil || block.Type != "CERTIFICATE" {
return "", fmt.Errorf("failed to decode certificate PEM for thumbprint")
}
hash := sha1.Sum(block.Bytes)
return strings.ToUpper(hex.EncodeToString(hash[:])), nil
}
// generateRandomPassword creates a random alphanumeric password for transient PFX encryption.
// The password is only used between PFX creation and import — it never persists.
func generateRandomPassword(length int) (string, error) {
const charset = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"
b := make([]byte, length)
if _, err := rand.Read(b); err != nil {
return "", fmt.Errorf("failed to read random bytes: %w", err)
}
for i := range b {
b[i] = charset[int(b[i])%len(charset)]
}
return string(b), nil
}
internal/connector/target/iis/iis_test.go
+1058
View File
File diff suppressed because it is too large Load Diff
internal/connector/target/iis/winrm.go
+89
View File
@@ -0,0 +1,89 @@
package iis
import (
"context"
"fmt"
"time"
"github.com/masterzen/winrm"
)
// WinRMConfig holds WinRM connection settings for remote IIS management.
// Used when Mode is "winrm" — the proxy agent connects to a remote Windows
// server over WinRM and executes PowerShell commands remotely.
type WinRMConfig struct {
Host string `json:"winrm_host"` // WinRM target hostname or IP (required)
Port int `json:"winrm_port"` // WinRM port (default 5985 for HTTP, 5986 for HTTPS)
Username string `json:"winrm_username"` // Windows user (e.g., "Administrator")
Password string `json:"winrm_password"` // Windows password
UseHTTPS bool `json:"winrm_https"` // Use HTTPS (port 5986) instead of HTTP (port 5985)
Insecure bool `json:"winrm_insecure"` // Skip TLS certificate verification (for self-signed certs)
Timeout int `json:"winrm_timeout"` // Operation timeout in seconds (default 60)
}
// winrmExecutor implements PowerShellExecutor by running PowerShell commands
// on a remote Windows server via WinRM. This enables the proxy agent pattern:
// a Linux agent in the same network zone manages Windows IIS servers remotely.
type winrmExecutor struct {
client *winrm.Client
}
// newWinRMExecutor creates a WinRM client and returns a PowerShellExecutor.
func newWinRMExecutor(cfg *WinRMConfig) (*winrmExecutor, error) {
if cfg.Host == "" {
return nil, fmt.Errorf("winrm_host is required for WinRM mode")
}
if cfg.Username == "" {
return nil, fmt.Errorf("winrm_username is required for WinRM mode")
}
if cfg.Password == "" {
return nil, fmt.Errorf("winrm_password is required for WinRM mode")
}
port := cfg.Port
if port == 0 {
if cfg.UseHTTPS {
port = 5986
} else {
port = 5985
}
}
timeout := time.Duration(cfg.Timeout) * time.Second
if cfg.Timeout == 0 {
timeout = 60 * time.Second
}
endpoint := winrm.NewEndpoint(
cfg.Host,
port,
cfg.UseHTTPS,
cfg.Insecure,
nil, // CA cert
nil, // Client cert
nil, // Client key
timeout,
)
client, err := winrm.NewClient(endpoint, cfg.Username, cfg.Password)
if err != nil {
return nil, fmt.Errorf("failed to create WinRM client: %w", err)
}
return &winrmExecutor{client: client}, nil
}
// Execute runs a PowerShell script on the remote Windows server via WinRM.
// The script is wrapped in powershell.exe invocation on the remote side.
func (e *winrmExecutor) Execute(ctx context.Context, script string) (string, error) {
// RunPSWithContext returns (stdout, stderr, exitCode, error)
stdout, stderr, exitCode, err := e.client.RunPSWithContext(ctx, script)
if err != nil {
return stdout + stderr, fmt.Errorf("WinRM command failed: %w", err)
}
if exitCode != 0 {
return stdout + stderr, fmt.Errorf("PowerShell exited with code %d: %s", exitCode, stdout+stderr)
}
return stdout, nil
}
internal/connector/target/nginx/nginx.go
+32 -14
View File
@@ -7,6 +7,7 @@ import (
"log/slog"
"os"
"os/exec"
"path/filepath"
"time"
"github.com/shankar0123/certctl/internal/connector/target"
@@ -67,13 +68,13 @@ func (c *Connector) ValidateConfig(ctx context.Context, rawConfig json.RawMessag
"chain_path", cfg.ChainPath)
// Verify directory exists and is writable
certDir := cfg.CertPath[:len(cfg.CertPath)-len("/cert.pem")] // Simple path extraction
certDir := filepath.Dir(cfg.CertPath)
if _, err := os.Stat(certDir); os.IsNotExist(err) {
return fmt.Errorf("NGINX cert directory does not exist: %s", certDir)
}
// Verify validate command works
cmd := exec.CommandContext(ctx, cfg.ValidateCommand)
cmd := exec.CommandContext(ctx, "sh", "-c", cfg.ValidateCommand)
if err := cmd.Run(); err != nil {
c.logger.Warn("NGINX config validation failed during config check",
"error", err,
@@ -115,20 +116,37 @@ func (c *Connector) DeployCertificate(ctx context.Context, request target.Deploy
}
// Write chain with same permissions
if err := os.WriteFile(c.config.ChainPath, []byte(request.ChainPEM), 0644); err != nil {
errMsg := fmt.Sprintf("failed to write chain: %v", err)
c.logger.Error("chain deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: c.config.ChainPath,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
if c.config.ChainPath != "" {
if err := os.WriteFile(c.config.ChainPath, []byte(request.ChainPEM), 0644); err != nil {
errMsg := fmt.Sprintf("failed to write chain: %v", err)
c.logger.Error("chain deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: c.config.ChainPath,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
}
// Write private key if provided and key_path is configured
if c.config.KeyPath != "" && request.KeyPEM != "" {
if err := os.WriteFile(c.config.KeyPath, []byte(request.KeyPEM), 0600); err != nil {
errMsg := fmt.Sprintf("failed to write private key: %v", err)
c.logger.Error("key deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: c.config.KeyPath,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
c.logger.Info("private key written", "key_path", c.config.KeyPath)
}
// Validate NGINX configuration before reload
c.logger.Debug("validating NGINX configuration", "validate_command", c.config.ValidateCommand)
validateCmd := exec.CommandContext(ctx, c.config.ValidateCommand)
validateCmd := exec.CommandContext(ctx, "sh", "-c", c.config.ValidateCommand)
if output, err := validateCmd.CombinedOutput(); err != nil {
errMsg := fmt.Sprintf("NGINX config validation failed: %v (output: %s)", err, string(output))
c.logger.Error("NGINX validation failed", "error", err, "output", string(output))
@@ -142,7 +160,7 @@ func (c *Connector) DeployCertificate(ctx context.Context, request target.Deploy
// Reload NGINX
c.logger.Debug("reloading NGINX", "reload_command", c.config.ReloadCommand)
reloadCmd := exec.CommandContext(ctx, c.config.ReloadCommand)
reloadCmd := exec.CommandContext(ctx, "sh", "-c", c.config.ReloadCommand)
if output, err := reloadCmd.CombinedOutput(); err != nil {
errMsg := fmt.Sprintf("NGINX reload failed: %v (output: %s)", err, string(output))
c.logger.Error("NGINX reload failed", "error", err, "output", string(output))
@@ -187,7 +205,7 @@ func (c *Connector) ValidateDeployment(ctx context.Context, request target.Valid
startTime := time.Now()
// Validate NGINX configuration
validateCmd := exec.CommandContext(ctx, c.config.ValidateCommand)
validateCmd := exec.CommandContext(ctx, "sh", "-c", c.config.ValidateCommand)
if err := validateCmd.Run(); err != nil {
errMsg := fmt.Sprintf("NGINX config validation failed: %v", err)
c.logger.Error("validation failed", "error", err)
internal/connector/target/postfix/postfix.go
+310
View File
@@ -0,0 +1,310 @@
package postfix
import (
"context"
"encoding/json"
"fmt"
"log/slog"
"os"
"os/exec"
"path/filepath"
"time"
"github.com/shankar0123/certctl/internal/connector/target"
"github.com/shankar0123/certctl/internal/validation"
)
// Config represents the Postfix/Dovecot deployment target configuration.
// This connector supports dual-mode operation: "postfix" for Postfix MTA
// and "dovecot" for Dovecot IMAP/POP3. The mode determines default file
// paths and reload commands. Both modes write cert/key/chain files and
// reload the mail service.
type Config struct {
Mode string `json:"mode"` // "postfix" (default) or "dovecot"
CertPath string `json:"cert_path"` // Path where cert will be written
KeyPath string `json:"key_path"` // Path where private key will be written
ChainPath string `json:"chain_path"` // Path where CA chain will be written (optional — if empty, chain appended to cert)
ReloadCommand string `json:"reload_command"` // Command to reload service
ValidateCommand string `json:"validate_command"` // Optional command to validate config before reload
}
// Connector implements the target.Connector interface for Postfix and Dovecot
// mail servers. This connector runs on the AGENT side and handles local
// certificate deployment for mail server TLS (STARTTLS, SMTPS, IMAPS, POP3S).
type Connector struct {
config *Config
logger *slog.Logger
}
// New creates a new Postfix/Dovecot target connector with the given configuration and logger.
func New(config *Config, logger *slog.Logger) *Connector {
return &Connector{
config: config,
logger: logger,
}
}
// applyDefaults sets mode-specific default values for any unconfigured fields.
func applyDefaults(cfg *Config) {
if cfg.Mode == "" {
cfg.Mode = "postfix"
}
switch cfg.Mode {
case "dovecot":
if cfg.CertPath == "" {
cfg.CertPath = "/etc/dovecot/certs/cert.pem"
}
if cfg.KeyPath == "" {
cfg.KeyPath = "/etc/dovecot/certs/key.pem"
}
if cfg.ReloadCommand == "" {
cfg.ReloadCommand = "doveadm reload"
}
if cfg.ValidateCommand == "" {
cfg.ValidateCommand = "doveconf -n"
}
default: // "postfix"
if cfg.CertPath == "" {
cfg.CertPath = "/etc/postfix/certs/cert.pem"
}
if cfg.KeyPath == "" {
cfg.KeyPath = "/etc/postfix/certs/key.pem"
}
if cfg.ReloadCommand == "" {
cfg.ReloadCommand = "postfix reload"
}
if cfg.ValidateCommand == "" {
cfg.ValidateCommand = "postfix check"
}
}
}
// ValidateConfig checks that the configuration is valid for the selected mode.
// It applies mode-specific defaults, validates shell commands against injection,
// and verifies the certificate directory exists.
func (c *Connector) ValidateConfig(ctx context.Context, rawConfig json.RawMessage) error {
var cfg Config
if err := json.Unmarshal(rawConfig, &cfg); err != nil {
return fmt.Errorf("invalid mail server config: %w", err)
}
// Validate mode
if cfg.Mode != "" && cfg.Mode != "postfix" && cfg.Mode != "dovecot" {
return fmt.Errorf("invalid mode %q: must be \"postfix\" or \"dovecot\"", cfg.Mode)
}
// Apply mode-specific defaults
applyDefaults(&cfg)
// Validate commands to prevent injection attacks
if err := validation.ValidateShellCommand(cfg.ReloadCommand); err != nil {
return fmt.Errorf("invalid reload_command: %w", err)
}
if cfg.ValidateCommand != "" {
if err := validation.ValidateShellCommand(cfg.ValidateCommand); err != nil {
return fmt.Errorf("invalid validate_command: %w", err)
}
}
c.logger.Info("validating mail server configuration",
"mode", cfg.Mode,
"cert_path", cfg.CertPath,
"key_path", cfg.KeyPath,
"chain_path", cfg.ChainPath)
// Verify certificate directory exists
certDir := filepath.Dir(cfg.CertPath)
if _, err := os.Stat(certDir); os.IsNotExist(err) {
return fmt.Errorf("%s cert directory does not exist: %s", cfg.Mode, certDir)
}
// Verify validate command works (best-effort — service might not be installed yet)
if cfg.ValidateCommand != "" {
cmd := exec.CommandContext(ctx, "sh", "-c", cfg.ValidateCommand)
if err := cmd.Run(); err != nil {
c.logger.Warn("config validation command failed during config check",
"error", err,
"mode", cfg.Mode,
"validate_command", cfg.ValidateCommand)
}
}
c.config = &cfg
c.logger.Info("mail server configuration validated", "mode", cfg.Mode)
return nil
}
// DeployCertificate writes the certificate, key, and chain to the configured paths
// and reloads the mail service to pick up the new certificates.
//
// Steps:
// 1. Write certificate to cert_path with mode 0644 (if chain_path empty, append chain)
// 2. Write private key to key_path with mode 0600
// 3. If chain_path is set, write chain separately with mode 0644
// 4. Validate configuration (if validate_command is set)
// 5. Reload service
func (c *Connector) DeployCertificate(ctx context.Context, request target.DeploymentRequest) (*target.DeploymentResult, error) {
c.logger.Info("deploying certificate to mail server",
"mode", c.config.Mode,
"cert_path", c.config.CertPath,
"key_path", c.config.KeyPath)
startTime := time.Now()
// Build certificate data: if chain_path is set, write chain separately;
// otherwise append chain to cert file (fullchain behavior)
certData := request.CertPEM
if request.ChainPEM != "" && c.config.ChainPath == "" {
certData += "\n" + request.ChainPEM
}
// Write certificate with mode 0644 (rw-r--r--)
if err := os.WriteFile(c.config.CertPath, []byte(certData), 0644); err != nil {
errMsg := fmt.Sprintf("failed to write certificate: %v", err)
c.logger.Error("certificate deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: c.config.CertPath,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
// Write private key with secure permissions (0600: rw-------)
if c.config.KeyPath != "" && request.KeyPEM != "" {
if err := os.WriteFile(c.config.KeyPath, []byte(request.KeyPEM), 0600); err != nil {
errMsg := fmt.Sprintf("failed to write private key: %v", err)
c.logger.Error("key deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: c.config.KeyPath,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
c.logger.Info("private key written", "key_path", c.config.KeyPath)
}
// Write chain separately if chain_path is configured
if c.config.ChainPath != "" && request.ChainPEM != "" {
if err := os.WriteFile(c.config.ChainPath, []byte(request.ChainPEM), 0644); err != nil {
errMsg := fmt.Sprintf("failed to write chain: %v", err)
c.logger.Error("chain deployment failed", "error", err)
return &target.DeploymentResult{
Success: false,
TargetAddress: c.config.ChainPath,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
}
// Validate configuration before reload
if c.config.ValidateCommand != "" {
c.logger.Debug("validating configuration", "validate_command", c.config.ValidateCommand)
validateCmd := exec.CommandContext(ctx, "sh", "-c", c.config.ValidateCommand)
if output, err := validateCmd.CombinedOutput(); err != nil {
errMsg := fmt.Sprintf("%s config validation failed: %v (output: %s)", c.config.Mode, err, string(output))
c.logger.Error("config validation failed", "error", err, "output", string(output))
return &target.DeploymentResult{
Success: false,
TargetAddress: c.config.CertPath,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
}
// Reload service
c.logger.Debug("reloading service", "reload_command", c.config.ReloadCommand)
reloadCmd := exec.CommandContext(ctx, "sh", "-c", c.config.ReloadCommand)
if output, err := reloadCmd.CombinedOutput(); err != nil {
errMsg := fmt.Sprintf("%s reload failed: %v (output: %s)", c.config.Mode, err, string(output))
c.logger.Error("service reload failed", "error", err, "output", string(output))
return &target.DeploymentResult{
Success: false,
TargetAddress: c.config.CertPath,
Message: errMsg,
DeployedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
deploymentDuration := time.Since(startTime)
c.logger.Info("certificate deployed to mail server successfully",
"mode", c.config.Mode,
"duration", deploymentDuration.String(),
"cert_path", c.config.CertPath)
return &target.DeploymentResult{
Success: true,
TargetAddress: c.config.CertPath,
DeploymentID: fmt.Sprintf("%s-%d", c.config.Mode, time.Now().Unix()),
Message: fmt.Sprintf("Certificate deployed and %s reloaded successfully", c.config.Mode),
DeployedAt: time.Now(),
Metadata: map[string]string{
"cert_path": c.config.CertPath,
"key_path": c.config.KeyPath,
"mode": c.config.Mode,
"duration_ms": fmt.Sprintf("%d", deploymentDuration.Milliseconds()),
},
}, nil
}
// ValidateDeployment verifies that the deployed certificate is valid and accessible.
// It runs the validate command (if configured) and checks that the cert file exists.
func (c *Connector) ValidateDeployment(ctx context.Context, request target.ValidationRequest) (*target.ValidationResult, error) {
c.logger.Info("validating mail server deployment",
"mode", c.config.Mode,
"certificate_id", request.CertificateID,
"serial", request.Serial)
startTime := time.Now()
// Validate configuration if validate command is set
if c.config.ValidateCommand != "" {
validateCmd := exec.CommandContext(ctx, "sh", "-c", c.config.ValidateCommand)
if output, err := validateCmd.CombinedOutput(); err != nil {
errMsg := fmt.Sprintf("%s config validation failed: %v (output: %s)", c.config.Mode, err, string(output))
c.logger.Error("validation failed", "error", err)
return &target.ValidationResult{
Valid: false,
Serial: request.Serial,
TargetAddress: c.config.CertPath,
Message: errMsg,
ValidatedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
}
// Verify certificate file exists and is readable
if _, err := os.Stat(c.config.CertPath); os.IsNotExist(err) {
errMsg := fmt.Sprintf("certificate file not found: %s", c.config.CertPath)
c.logger.Error("validation failed", "error", err)
return &target.ValidationResult{
Valid: false,
Serial: request.Serial,
TargetAddress: c.config.CertPath,
Message: errMsg,
ValidatedAt: time.Now(),
}, fmt.Errorf("%s", errMsg)
}
validationDuration := time.Since(startTime)
c.logger.Info("mail server deployment validated successfully",
"mode", c.config.Mode,
"duration", validationDuration.String())
return &target.ValidationResult{
Valid: true,
Serial: request.Serial,
TargetAddress: c.config.CertPath,
Message: fmt.Sprintf("%s configuration valid and certificate accessible", c.config.Mode),
ValidatedAt: time.Now(),
Metadata: map[string]string{
"mode": c.config.Mode,
"validate_command": c.config.ValidateCommand,
"duration_ms": fmt.Sprintf("%d", validationDuration.Milliseconds()),
},
}, nil
}
internal/connector/target/postfix/postfix_test.go
+530
View File
@@ -0,0 +1,530 @@
package postfix_test
import (
"context"
"encoding/json"
"log/slog"
"os"
"path/filepath"
"strings"
"testing"
"github.com/shankar0123/certctl/internal/connector/target"
"github.com/shankar0123/certctl/internal/connector/target/postfix"
)
// --- Config Validation Tests ---
func TestPostfixConnector_ValidateConfig_Success(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
tmpDir := t.TempDir()
cfg := postfix.Config{
Mode: "postfix",
CertPath: filepath.Join(tmpDir, "cert.pem"),
KeyPath: filepath.Join(tmpDir, "key.pem"),
ChainPath: filepath.Join(tmpDir, "chain.pem"),
ReloadCommand: "true",
ValidateCommand: "true",
}
connector := postfix.New(&cfg, logger)
rawConfig, _ := json.Marshal(cfg)
err := connector.ValidateConfig(ctx, rawConfig)
if err != nil {
t.Fatalf("ValidateConfig failed: %v", err)
}
}
func TestPostfixConnector_ValidateConfig_DovecotMode(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
tmpDir := t.TempDir()
cfg := postfix.Config{
Mode: "dovecot",
CertPath: filepath.Join(tmpDir, "cert.pem"),
KeyPath: filepath.Join(tmpDir, "key.pem"),
ReloadCommand: "true",
ValidateCommand: "true",
}
connector := postfix.New(&cfg, logger)
rawConfig, _ := json.Marshal(cfg)
err := connector.ValidateConfig(ctx, rawConfig)
if err != nil {
t.Fatalf("ValidateConfig for dovecot mode failed: %v", err)
}
}
func TestPostfixConnector_ValidateConfig_InvalidJSON(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
connector := postfix.New(&postfix.Config{}, logger)
err := connector.ValidateConfig(ctx, json.RawMessage(`{invalid}`))
if err == nil {
t.Fatal("expected error for invalid JSON")
}
}
func TestPostfixConnector_ValidateConfig_InvalidMode(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
cfg := postfix.Config{
Mode: "nginx",
CertPath: "/tmp/cert.pem",
ReloadCommand: "true",
}
connector := postfix.New(&cfg, logger)
rawConfig, _ := json.Marshal(cfg)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("expected error for invalid mode")
}
if !strings.Contains(err.Error(), "invalid mode") {
t.Fatalf("expected 'invalid mode' error, got: %v", err)
}
}
func TestPostfixConnector_ValidateConfig_DirectoryNotExists(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
cfg := postfix.Config{
Mode: "postfix",
CertPath: "/nonexistent/directory/cert.pem",
KeyPath: "/nonexistent/directory/key.pem",
ReloadCommand: "true",
ValidateCommand: "true",
}
connector := postfix.New(&cfg, logger)
rawConfig, _ := json.Marshal(cfg)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("expected error for non-existent cert directory")
}
}
func TestPostfixConnector_ValidateConfig_MissingCertPath(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
// An empty config with mode=postfix will get defaults applied.
// The defaults point to /etc/postfix/certs/ which won't exist in test,
// so this will fail at directory check — which is fine; it validates that
// defaults are applied and path validation catches missing dirs.
cfg := postfix.Config{
Mode: "postfix",
ReloadCommand: "true",
ValidateCommand: "true",
}
connector := postfix.New(&cfg, logger)
rawConfig, _ := json.Marshal(cfg)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("expected error when default cert directory doesn't exist")
}
}
func TestPostfixConnector_ValidateConfig_DefaultsApplied(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
// Create a directory matching the postfix default path structure
tmpDir := t.TempDir()
certDir := filepath.Join(tmpDir, "postfix", "certs")
os.MkdirAll(certDir, 0755)
cfg := postfix.Config{
Mode: "postfix",
CertPath: filepath.Join(certDir, "cert.pem"),
KeyPath: filepath.Join(certDir, "key.pem"),
// Leave ReloadCommand and ValidateCommand empty to get defaults
}
connector := postfix.New(&cfg, logger)
rawConfig, _ := json.Marshal(cfg)
// Defaults will be applied for reload/validate commands.
// The validate command will be "postfix check" which won't exist in test env
// but ValidateConfig only warns on validate command failure (doesn't error).
// The reload command "postfix reload" will be validated by ValidateShellCommand.
err := connector.ValidateConfig(ctx, rawConfig)
if err != nil {
t.Fatalf("ValidateConfig with defaults failed: %v", err)
}
}
// --- Deployment Tests ---
func TestPostfixConnector_DeployCertificate_Success(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
tmpDir := t.TempDir()
cfg := &postfix.Config{
Mode: "postfix",
CertPath: filepath.Join(tmpDir, "cert.pem"),
KeyPath: filepath.Join(tmpDir, "key.pem"),
ChainPath: filepath.Join(tmpDir, "chain.pem"),
ReloadCommand: "true",
ValidateCommand: "true",
}
connector := postfix.New(cfg, logger)
req := target.DeploymentRequest{
CertPEM: "-----BEGIN CERTIFICATE-----\ntest\n-----END CERTIFICATE-----",
KeyPEM: "-----BEGIN PRIVATE KEY-----\nkey\n-----END PRIVATE KEY-----",
ChainPEM: "-----BEGIN CERTIFICATE-----\nchain\n-----END CERTIFICATE-----",
}
result, err := connector.DeployCertificate(ctx, req)
if err != nil {
t.Fatalf("DeployCertificate failed: %v", err)
}
if !result.Success {
t.Fatalf("expected success, got: %s", result.Message)
}
// Verify cert file was written (just cert, not chain — since chain_path is set)
certData, err := os.ReadFile(cfg.CertPath)
if err != nil {
t.Fatalf("failed to read cert file: %v", err)
}
if string(certData) != req.CertPEM {
t.Errorf("cert content mismatch: got %q", string(certData))
}
// Verify key file was written
keyData, err := os.ReadFile(cfg.KeyPath)
if err != nil {
t.Fatalf("failed to read key file: %v", err)
}
if string(keyData) != req.KeyPEM {
t.Errorf("key content mismatch")
}
// Verify chain file was written
chainData, err := os.ReadFile(cfg.ChainPath)
if err != nil {
t.Fatalf("failed to read chain file: %v", err)
}
if string(chainData) != req.ChainPEM {
t.Errorf("chain content mismatch")
}
// Verify cert has correct permissions (0644)
info, err := os.Stat(cfg.CertPath)
if err != nil {
t.Fatalf("failed to stat cert file: %v", err)
}
if info.Mode().Perm() != 0644 {
t.Errorf("expected cert permissions 0644, got %v", info.Mode().Perm())
}
// Verify key has correct permissions (0600)
info, err = os.Stat(cfg.KeyPath)
if err != nil {
t.Fatalf("failed to stat key file: %v", err)
}
if info.Mode().Perm() != 0600 {
t.Errorf("expected key permissions 0600, got %v", info.Mode().Perm())
}
// Verify metadata
if result.Metadata == nil {
t.Fatal("expected metadata in result")
}
if result.Metadata["cert_path"] != cfg.CertPath {
t.Errorf("expected cert_path in metadata")
}
if result.Metadata["mode"] != "postfix" {
t.Errorf("expected mode=postfix in metadata, got %s", result.Metadata["mode"])
}
if _, ok := result.Metadata["duration_ms"]; !ok {
t.Errorf("expected duration_ms in metadata")
}
}
func TestPostfixConnector_DeployCertificate_ChainAppendedToCert(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
tmpDir := t.TempDir()
cfg := &postfix.Config{
Mode: "postfix",
CertPath: filepath.Join(tmpDir, "cert.pem"),
KeyPath: filepath.Join(tmpDir, "key.pem"),
ChainPath: "", // No chain_path — chain should be appended to cert
ReloadCommand: "true",
ValidateCommand: "true",
}
connector := postfix.New(cfg, logger)
certPEM := "-----BEGIN CERTIFICATE-----\ncert\n-----END CERTIFICATE-----"
chainPEM := "-----BEGIN CERTIFICATE-----\nchain\n-----END CERTIFICATE-----"
req := target.DeploymentRequest{
CertPEM: certPEM,
KeyPEM: "-----BEGIN PRIVATE KEY-----\nkey\n-----END PRIVATE KEY-----",
ChainPEM: chainPEM,
}
result, err := connector.DeployCertificate(ctx, req)
if err != nil {
t.Fatalf("DeployCertificate failed: %v", err)
}
if !result.Success {
t.Fatalf("expected success, got: %s", result.Message)
}
// Verify cert file contains both cert and chain (fullchain)
certData, err := os.ReadFile(cfg.CertPath)
if err != nil {
t.Fatalf("failed to read cert file: %v", err)
}
expected := certPEM + "\n" + chainPEM
if string(certData) != expected {
t.Errorf("expected fullchain content, got: %q", string(certData))
}
}
func TestPostfixConnector_DeployCertificate_CertWriteFail(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
cfg := &postfix.Config{
Mode: "postfix",
CertPath: "/nonexistent/directory/cert.pem",
KeyPath: "/nonexistent/directory/key.pem",
ReloadCommand: "true",
ValidateCommand: "true",
}
connector := postfix.New(cfg, logger)
req := target.DeploymentRequest{
CertPEM: "cert",
ChainPEM: "chain",
}
result, err := connector.DeployCertificate(ctx, req)
if err == nil {
t.Fatal("expected error when cert write fails")
}
if result.Success {
t.Fatal("expected failure result")
}
}
func TestPostfixConnector_DeployCertificate_ValidateCommandFails(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
tmpDir := t.TempDir()
cfg := &postfix.Config{
Mode: "postfix",
CertPath: filepath.Join(tmpDir, "cert.pem"),
KeyPath: filepath.Join(tmpDir, "key.pem"),
ReloadCommand: "true",
ValidateCommand: "false", // Exits with code 1
}
connector := postfix.New(cfg, logger)
req := target.DeploymentRequest{
CertPEM: "cert",
ChainPEM: "chain",
}
result, err := connector.DeployCertificate(ctx, req)
if err == nil {
t.Fatal("expected error when validate command fails")
}
if result.Success {
t.Fatal("expected failure result")
}
}
func TestPostfixConnector_DeployCertificate_ReloadCommandFails(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
tmpDir := t.TempDir()
cfg := &postfix.Config{
Mode: "postfix",
CertPath: filepath.Join(tmpDir, "cert.pem"),
KeyPath: filepath.Join(tmpDir, "key.pem"),
ReloadCommand: "false", // Exits with code 1
ValidateCommand: "true",
}
connector := postfix.New(cfg, logger)
req := target.DeploymentRequest{
CertPEM: "cert",
ChainPEM: "chain",
}
result, err := connector.DeployCertificate(ctx, req)
if err == nil {
t.Fatal("expected error when reload command fails")
}
if result.Success {
t.Fatal("expected failure result")
}
}
// --- Validation Tests ---
func TestPostfixConnector_ValidateDeployment_Success(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
tmpDir := t.TempDir()
certPath := filepath.Join(tmpDir, "cert.pem")
os.WriteFile(certPath, []byte("cert"), 0644)
cfg := &postfix.Config{
Mode: "postfix",
CertPath: certPath,
ValidateCommand: "true",
}
connector := postfix.New(cfg, logger)
result, err := connector.ValidateDeployment(ctx, target.ValidationRequest{
CertificateID: "mc-test",
Serial: "123",
})
if err != nil {
t.Fatalf("ValidateDeployment failed: %v", err)
}
if !result.Valid {
t.Fatal("expected valid deployment")
}
if result.Metadata == nil {
t.Fatal("expected metadata in result")
}
if result.Metadata["mode"] != "postfix" {
t.Errorf("expected mode=postfix in metadata")
}
}
func TestPostfixConnector_ValidateDeployment_CertNotFound(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
cfg := &postfix.Config{
Mode: "postfix",
CertPath: "/nonexistent/cert.pem",
ValidateCommand: "true",
}
connector := postfix.New(cfg, logger)
result, err := connector.ValidateDeployment(ctx, target.ValidationRequest{
CertificateID: "mc-test",
Serial: "123",
})
if err == nil {
t.Fatal("expected error for missing cert file")
}
if result.Valid {
t.Fatal("expected invalid result")
}
}
// --- Security Tests (Command Injection Prevention) ---
func TestPostfixConnector_ValidateConfig_RejectCommandInjectionSemicolon(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
tmpDir := t.TempDir()
cfg := postfix.Config{
Mode: "postfix",
CertPath: filepath.Join(tmpDir, "cert.pem"),
KeyPath: filepath.Join(tmpDir, "key.pem"),
ReloadCommand: "postfix reload; rm -rf /",
ValidateCommand: "true",
}
connector := postfix.New(&cfg, logger)
rawConfig, _ := json.Marshal(cfg)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("expected error for command injection in reload_command")
}
}
func TestPostfixConnector_ValidateConfig_RejectCommandInjectionPipe(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
tmpDir := t.TempDir()
cfg := postfix.Config{
Mode: "postfix",
CertPath: filepath.Join(tmpDir, "cert.pem"),
KeyPath: filepath.Join(tmpDir, "key.pem"),
ReloadCommand: "true",
ValidateCommand: "postfix check | cat /etc/passwd",
}
connector := postfix.New(&cfg, logger)
rawConfig, _ := json.Marshal(cfg)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("expected error for command injection in validate_command")
}
}
func TestPostfixConnector_ValidateConfig_RejectCommandSubstitution(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
tmpDir := t.TempDir()
cfg := postfix.Config{
Mode: "postfix",
CertPath: filepath.Join(tmpDir, "cert.pem"),
KeyPath: filepath.Join(tmpDir, "key.pem"),
ReloadCommand: "echo $(whoami)",
ValidateCommand: "true",
}
connector := postfix.New(&cfg, logger)
rawConfig, _ := json.Marshal(cfg)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("expected error for command substitution in reload_command")
}
}
func TestPostfixConnector_ValidateConfig_RejectBackticks(t *testing.T) {
logger := slog.New(slog.NewTextHandler(os.Stdout, &slog.HandlerOptions{Level: slog.LevelDebug}))
ctx := context.Background()
tmpDir := t.TempDir()
cfg := postfix.Config{
Mode: "postfix",
CertPath: filepath.Join(tmpDir, "cert.pem"),
KeyPath: filepath.Join(tmpDir, "key.pem"),
ReloadCommand: "true",
ValidateCommand: "postfix check `whoami`",
}
connector := postfix.New(&cfg, logger)
rawConfig, _ := json.Marshal(cfg)
err := connector.ValidateConfig(ctx, rawConfig)
if err == nil {
t.Fatal("expected error for backtick injection in validate_command")
}
}
internal/domain/connector.go
+5
View File
@@ -71,6 +71,8 @@ const (
IssuerTypeOpenSSL IssuerType = "OpenSSL"
IssuerTypeVault IssuerType = "VaultPKI"
IssuerTypeDigiCert IssuerType = "DigiCert"
IssuerTypeSectigo IssuerType = "Sectigo"
IssuerTypeGoogleCAS IssuerType = "GoogleCAS"
)
// TargetType represents the type of deployment target.
@@ -84,4 +86,7 @@ const (
TargetTypeIIS TargetType = "IIS"
TargetTypeTraefik TargetType = "Traefik"
TargetTypeCaddy TargetType = "Caddy"
TargetTypeEnvoy TargetType = "Envoy"
TargetTypePostfix TargetType = "Postfix"
TargetTypeDovecot TargetType = "Dovecot"
)
internal/service/agent.go
+9 -8
View File
@@ -178,14 +178,15 @@ func (s *AgentService) SubmitCSR(ctx context.Context, agentID string, certID str
}
version := &domain.CertificateVersion{
ID: generateID("certver"),
CertificateID: certID,
SerialNumber: result.Serial,
NotBefore: result.NotBefore,
NotAfter: result.NotAfter,
PEMChain: result.CertPEM + "\n" + result.ChainPEM,
CSRPEM: string(csrPEM),
CreatedAt: time.Now(),
ID: generateID("certver"),
CertificateID: certID,
SerialNumber: result.Serial,
NotBefore: result.NotBefore,
NotAfter: result.NotAfter,
FingerprintSHA256: computeCertFingerprint(result.CertPEM),
PEMChain: result.CertPEM + "\n" + result.ChainPEM,
CSRPEM: string(csrPEM),
CreatedAt: time.Now(),
}
if err := s.certRepo.CreateVersion(ctx, version); err != nil {
internal/service/certificate.go
+53
View File
@@ -14,10 +14,12 @@ import (
type CertificateService struct {
certRepo repository.CertificateRepository
targetRepo repository.TargetRepository
jobRepo repository.JobRepository
policyService *PolicyService
auditService *AuditService
revSvc *RevocationSvc
caSvc *CAOperationsSvc
keygenMode string
}
// NewCertificateService creates a new certificate service.
@@ -48,6 +50,16 @@ func (s *CertificateService) SetTargetRepo(repo repository.TargetRepository) {
s.targetRepo = repo
}
// SetJobRepo sets the job repository for creating renewal/issuance jobs.
func (s *CertificateService) SetJobRepo(repo repository.JobRepository) {
s.jobRepo = repo
}
// SetKeygenMode sets the key generation mode (agent or server).
func (s *CertificateService) SetKeygenMode(mode string) {
s.keygenMode = mode
}
// List returns a paginated list of certificates matching the filter.
func (s *CertificateService) List(ctx context.Context, filter *repository.CertificateFilter) ([]*domain.ManagedCertificate, int, error) {
certs, total, err := s.certRepo.List(ctx, filter)
@@ -195,6 +207,8 @@ func (s *CertificateService) GetVersions(ctx context.Context, certID string) ([]
}
// TriggerRenewalWithActor initiates a renewal job if the certificate is eligible.
// Creates a Renewal job (or Issuance for new certs) so the scheduler's job processor
// can pick it up and route it through the issuer connector.
func (s *CertificateService) TriggerRenewalWithActor(ctx context.Context, certID string, actor string) error {
cert, err := s.certRepo.Get(ctx, certID)
if err != nil {
@@ -220,6 +234,45 @@ func (s *CertificateService) TriggerRenewalWithActor(ctx context.Context, certID
return fmt.Errorf("failed to update certificate status: %w", err)
}
// Create a renewal job so the job processor can pick it up.
// In agent keygen mode, the job starts as AwaitingCSR so the agent
// generates the key pair and submits a CSR. In server mode, it starts as Pending.
if s.jobRepo != nil {
jobStatus := domain.JobStatusPending
if s.keygenMode == "agent" {
jobStatus = domain.JobStatusAwaitingCSR
}
// Determine job type: Issuance for certs that have never been issued,
// Renewal for certs that already have a version.
jobType := domain.JobTypeRenewal
if cert.ExpiresAt.IsZero() || cert.ExpiresAt.Year() < 2000 {
jobType = domain.JobTypeIssuance
}
job := &domain.Job{
ID: generateID("job"),
CertificateID: cert.ID,
Type: jobType,
Status: jobStatus,
MaxAttempts: 3,
ScheduledAt: time.Now(),
CreatedAt: time.Now(),
}
if err := s.jobRepo.Create(ctx, job); err != nil {
slog.Error("failed to create renewal job", "cert_id", cert.ID, "error", err)
return fmt.Errorf("failed to create renewal job: %w", err)
}
slog.Info("created renewal job via API trigger",
"job_id", job.ID,
"cert_id", cert.ID,
"job_type", string(jobType),
"job_status", string(jobStatus),
"keygen_mode", s.keygenMode)
}
// Record audit event
if err := s.auditService.RecordEvent(ctx, actor, domain.ActorTypeUser,
"renewal_triggered", "certificate", certID,
internal/service/job.go
+10
View File
@@ -54,6 +54,16 @@ func (s *JobService) ProcessPendingJobs(ctx context.Context) error {
// Process each job
for _, job := range pendingJobs {
// Skip deployment jobs that have an agent_id — those are meant for agent
// pickup via GetPendingWork(), not server-side processing. The server should
// only process deployment jobs without an agent (legacy/serverless targets).
if job.Type == domain.JobTypeDeployment && job.AgentID != nil && *job.AgentID != "" {
s.logger.Debug("skipping agent-routed deployment job",
"job_id", job.ID,
"agent_id", *job.AgentID)
continue
}
if err := s.processJob(ctx, job); err != nil {
s.logger.Error("failed to process job",
"job_id", job.ID,
internal/service/renewal.go
+42 -13
View File
@@ -636,23 +636,50 @@ func (s *RenewalService) CompleteAgentCSRRenewal(ctx context.Context, job *domai
}
// createDeploymentJobs creates pending deployment jobs for each target associated with a cert.
// If cert.TargetIDs is empty (common — the repository doesn't populate this field),
// falls back to querying certificate_target_mappings via targetRepo.ListByCertificate.
func (s *RenewalService) createDeploymentJobs(ctx context.Context, cert *domain.ManagedCertificate) {
if len(cert.TargetIDs) == 0 {
// Resolve targets: prefer in-memory TargetIDs, fall back to DB query
type targetInfo struct {
id string
agentID string
}
var targets []targetInfo
if len(cert.TargetIDs) > 0 {
// TargetIDs populated (e.g. from test or manual wiring)
for _, tid := range cert.TargetIDs {
ti := targetInfo{id: tid}
if s.targetRepo != nil {
if target, err := s.targetRepo.Get(ctx, tid); err == nil && target.AgentID != "" {
ti.agentID = target.AgentID
}
}
targets = append(targets, ti)
}
} else if s.targetRepo != nil {
// TargetIDs empty — query certificate_target_mappings via repository
dbTargets, err := s.targetRepo.ListByCertificate(ctx, cert.ID)
if err != nil {
slog.Error("failed to query targets for certificate", "cert_id", cert.ID, "error", err)
return
}
for _, t := range dbTargets {
targets = append(targets, targetInfo{id: t.ID, agentID: t.AgentID})
}
}
if len(targets) == 0 {
slog.Debug("no targets found for certificate, skipping deployment", "cert_id", cert.ID)
return
}
for _, targetID := range cert.TargetIDs {
tid := targetID
// Resolve agent_id from target for job routing
for _, t := range targets {
tid := t.id
var agentIDPtr *string
if s.targetRepo != nil {
target, err := s.targetRepo.Get(ctx, tid)
if err != nil {
slog.Warn("failed to resolve agent for deployment job", "target_id", tid, "error", err)
} else if target.AgentID != "" {
agentID := target.AgentID
agentIDPtr = &agentID
}
if t.agentID != "" {
aid := t.agentID
agentIDPtr = &aid
}
deployJob := &domain.Job{
@@ -667,7 +694,9 @@ func (s *RenewalService) createDeploymentJobs(ctx context.Context, cert *domain.
CreatedAt: time.Now(),
}
if err := s.jobRepo.Create(ctx, deployJob); err != nil {
slog.Error("failed to create deployment job for target", "target_id", targetID, "error", err)
slog.Error("failed to create deployment job for target", "target_id", tid, "cert_id", cert.ID, "error", err)
} else {
slog.Info("created deployment job", "job_id", deployJob.ID, "cert_id", cert.ID, "target_id", tid, "agent_id", t.agentID)
}
}
}
migrations/seed_demo.sql
+26 -24
View File
@@ -39,46 +39,48 @@ ON CONFLICT (id) DO NOTHING;
-- 3. Issuers
-- ============================================================
INSERT INTO issuers (id, name, type, config, enabled, created_at, updated_at) VALUES
('iss-local', 'Local Dev CA', 'local', '{"ca_common_name": "CertCtl Demo CA", "validity_days": 90}', true, NOW() - INTERVAL '180 days', NOW() - INTERVAL '180 days'),
('iss-acme-le', 'Let''s Encrypt Staging', 'acme', '{"directory_url": "https://acme-staging-v02.api.letsencrypt.org/directory", "email": "admin@example.com", "challenge_type": "http-01"}', true, NOW() - INTERVAL '150 days', NOW() - INTERVAL '150 days'),
('iss-stepca', 'step-ca Internal', 'stepca', '{"ca_url": "https://ca.internal:9000", "provisioner_name": "certctl", "validity_days": 90}', true, NOW() - INTERVAL '120 days', NOW() - INTERVAL '120 days'),
('iss-acme-zs', 'ZeroSSL (EAB)', 'acme', '{"directory_url": "https://acme.zerossl.com/v2/DV90", "email": "admin@example.com", "challenge_type": "http-01"}', true, NOW() - INTERVAL '60 days', NOW() - INTERVAL '60 days'),
('iss-openssl', 'Custom OpenSSL CA', 'openssl', '{"sign_script": "/opt/ca/sign.sh", "timeout_seconds": 30}', false, NOW() - INTERVAL '30 days', NOW() - INTERVAL '30 days'),
('iss-local', 'Local Dev CA', 'GenericCA', '{"ca_common_name": "CertCtl Demo CA", "validity_days": 90}', true, NOW() - INTERVAL '180 days', NOW() - INTERVAL '180 days'),
('iss-acme-le', 'Let''s Encrypt Staging', 'ACME', '{"directory_url": "https://acme-staging-v02.api.letsencrypt.org/directory", "email": "admin@example.com", "challenge_type": "http-01"}', true, NOW() - INTERVAL '150 days', NOW() - INTERVAL '150 days'),
('iss-stepca', 'step-ca Internal', 'StepCA', '{"ca_url": "https://ca.internal:9000", "provisioner_name": "certctl", "validity_days": 90}', true, NOW() - INTERVAL '120 days', NOW() - INTERVAL '120 days'),
('iss-acme-zs', 'ZeroSSL (EAB)', 'ACME', '{"directory_url": "https://acme.zerossl.com/v2/DV90", "email": "admin@example.com", "challenge_type": "http-01"}', true, NOW() - INTERVAL '60 days', NOW() - INTERVAL '60 days'),
('iss-openssl', 'Custom OpenSSL CA', 'OpenSSL', '{"sign_script": "/opt/ca/sign.sh", "timeout_seconds": 30}', false, NOW() - INTERVAL '30 days', NOW() - INTERVAL '30 days'),
('iss-vault', 'HashiCorp Vault PKI', 'VaultPKI', '{"addr": "https://vault.internal:8200", "mount": "pki", "role": "web-certs", "ttl": "8760h"}', true, NOW() - INTERVAL '20 days', NOW() - INTERVAL '20 days'),
('iss-digicert', 'DigiCert CertCentral', 'DigiCert', '{"base_url": "https://www.digicert.com/services/v2", "product_type": "ssl_basic"}', true, NOW() - INTERVAL '15 days', NOW() - INTERVAL '15 days')
('iss-digicert', 'DigiCert CertCentral', 'DigiCert', '{"base_url": "https://www.digicert.com/services/v2", "product_type": "ssl_basic"}', true, NOW() - INTERVAL '15 days', NOW() - INTERVAL '15 days'),
('iss-sectigo', 'Sectigo SCM', 'Sectigo', '{"base_url": "https://cert-manager.com/api", "cert_type": 423, "term": 365}', true, NOW() - INTERVAL '10 days', NOW() - INTERVAL '10 days'),
('iss-googlecas','Google CAS', 'GoogleCAS', '{"project": "demo-project", "location": "us-central1", "ca_pool": "demo-pool"}', false, NOW() - INTERVAL '5 days', NOW() - INTERVAL '5 days')
ON CONFLICT (id) DO NOTHING;
-- ============================================================
-- 4. Agents (8 agents across multiple platforms)
-- ============================================================
INSERT INTO agents (id, name, hostname, status, last_heartbeat_at, registered_at, api_key_hash, os, architecture, ip_address, version) VALUES
('ag-web-prod', 'web-prod-agent', 'web-prod-01.internal', 'online', NOW() - INTERVAL '30 seconds', NOW() - INTERVAL '120 days', 'demo_hash_1', 'linux', 'amd64', '10.0.1.10', '2.0.14'),
('ag-web-staging', 'web-staging-agent', 'web-stg-01.internal', 'online', NOW() - INTERVAL '45 seconds', NOW() - INTERVAL '90 days', 'demo_hash_2', 'linux', 'amd64', '10.0.2.20', '2.0.14'),
('ag-lb-prod', 'lb-prod-agent', 'lb-prod-01.internal', 'online', NOW() - INTERVAL '15 seconds', NOW() - INTERVAL '150 days', 'demo_hash_3', 'linux', 'amd64', '10.0.1.50', '2.0.14'),
('ag-iis-prod', 'iis-prod-agent', 'iis-prod-01.internal', 'offline', NOW() - INTERVAL '3 hours', NOW() - INTERVAL '60 days', 'demo_hash_4', 'windows', 'amd64', '10.0.3.15', '2.0.12'),
('ag-data-prod', 'data-prod-agent', 'data-prod-01.internal', 'online', NOW() - INTERVAL '20 seconds', NOW() - INTERVAL '90 days', 'demo_hash_5', 'linux', 'arm64', '10.0.4.30', '2.0.14'),
('ag-edge-01', 'edge-eu-agent', 'edge-eu-01.internal', 'online', NOW() - INTERVAL '50 seconds', NOW() - INTERVAL '45 days', 'demo_hash_6', 'linux', 'arm64', '10.0.5.10', '2.0.14'),
('ag-k8s-prod', 'k8s-prod-agent', 'k8s-node-01.internal', 'online', NOW() - INTERVAL '10 seconds', NOW() - INTERVAL '30 days', 'demo_hash_7', 'linux', 'amd64', '10.0.6.10', '2.0.14'),
('ag-mac-dev', 'mac-dev-agent', 'dev-mac-01.internal', 'online', NOW() - INTERVAL '60 seconds', NOW() - INTERVAL '15 days', 'demo_hash_8', 'darwin', 'arm64', '10.0.7.5', '2.0.14')
('ag-web-prod', 'web-prod-agent', 'web-prod-01.internal', 'Online', NOW() - INTERVAL '30 seconds', NOW() - INTERVAL '120 days', 'demo_hash_1', 'linux', 'amd64', '10.0.1.10', '2.0.14'),
('ag-web-staging', 'web-staging-agent', 'web-stg-01.internal', 'Online', NOW() - INTERVAL '45 seconds', NOW() - INTERVAL '90 days', 'demo_hash_2', 'linux', 'amd64', '10.0.2.20', '2.0.14'),
('ag-lb-prod', 'lb-prod-agent', 'lb-prod-01.internal', 'Online', NOW() - INTERVAL '15 seconds', NOW() - INTERVAL '150 days', 'demo_hash_3', 'linux', 'amd64', '10.0.1.50', '2.0.14'),
('ag-iis-prod', 'iis-prod-agent', 'iis-prod-01.internal', 'Offline', NOW() - INTERVAL '3 hours', NOW() - INTERVAL '60 days', 'demo_hash_4', 'windows', 'amd64', '10.0.3.15', '2.0.12'),
('ag-data-prod', 'data-prod-agent', 'data-prod-01.internal', 'Online', NOW() - INTERVAL '20 seconds', NOW() - INTERVAL '90 days', 'demo_hash_5', 'linux', 'arm64', '10.0.4.30', '2.0.14'),
('ag-edge-01', 'edge-eu-agent', 'edge-eu-01.internal', 'Online', NOW() - INTERVAL '50 seconds', NOW() - INTERVAL '45 days', 'demo_hash_6', 'linux', 'arm64', '10.0.5.10', '2.0.14'),
('ag-k8s-prod', 'k8s-prod-agent', 'k8s-node-01.internal', 'Online', NOW() - INTERVAL '10 seconds', NOW() - INTERVAL '30 days', 'demo_hash_7', 'linux', 'amd64', '10.0.6.10', '2.0.14'),
('ag-mac-dev', 'mac-dev-agent', 'dev-mac-01.internal', 'Online', NOW() - INTERVAL '60 seconds', NOW() - INTERVAL '15 days', 'demo_hash_8', 'darwin', 'arm64', '10.0.7.5', '2.0.14')
ON CONFLICT (id) DO NOTHING;
-- Sentinel agent for network-discovered certificates
INSERT INTO agents (id, name, hostname, status, last_heartbeat_at, registered_at, api_key_hash, os, architecture, ip_address, version) VALUES
('server-scanner', 'Network Scanner (Server-Side)', 'certctl-server', 'online', NOW(), NOW() - INTERVAL '90 days', 'sentinel_no_auth', 'linux', 'amd64', '127.0.0.1', '2.0.14')
('server-scanner', 'Network Scanner (Server-Side)', 'certctl-server', 'Online', NOW(), NOW() - INTERVAL '90 days', 'sentinel_no_auth', 'linux', 'amd64', '127.0.0.1', '2.0.14')
ON CONFLICT (id) DO NOTHING;
-- ============================================================
-- 5. Deployment Targets (8 targets across multiple connector types)
-- ============================================================
INSERT INTO deployment_targets (id, name, type, agent_id, config, enabled, created_at, updated_at) VALUES
('tgt-nginx-prod', 'NGINX Production', 'nginx', 'ag-web-prod', '{"cert_path": "/etc/nginx/ssl/cert.pem", "key_path": "/etc/nginx/ssl/key.pem", "reload_command": "nginx -s reload"}', true, NOW() - INTERVAL '120 days', NOW()),
('tgt-nginx-staging', 'NGINX Staging', 'nginx', 'ag-web-staging', '{"cert_path": "/etc/nginx/ssl/cert.pem", "key_path": "/etc/nginx/ssl/key.pem", "reload_command": "nginx -s reload"}', true, NOW() - INTERVAL '90 days', NOW()),
('tgt-haproxy-prod', 'HAProxy Production', 'haproxy', 'ag-lb-prod', '{"combined_pem_path": "/etc/haproxy/ssl/site.pem", "reload_command": "systemctl reload haproxy"}', true, NOW() - INTERVAL '150 days', NOW()),
('tgt-apache-prod', 'Apache Production', 'apache', 'ag-web-prod', '{"cert_path": "/etc/httpd/ssl/cert.pem", "key_path": "/etc/httpd/ssl/key.pem", "chain_path": "/etc/httpd/ssl/chain.pem", "reload_command": "apachectl graceful"}', true, NOW() - INTERVAL '100 days', NOW()),
('tgt-iis-prod', 'IIS Production', 'iis', 'ag-iis-prod', '{"site_name": "Default Web Site", "binding_info": "*:443:"}', true, NOW() - INTERVAL '60 days', NOW()),
('tgt-traefik-prod', 'Traefik Production', 'traefik', 'ag-k8s-prod', '{"watch_dir": "/etc/traefik/dynamic/certs"}', true, NOW() - INTERVAL '30 days', NOW()),
('tgt-caddy-prod', 'Caddy Production', 'caddy', 'ag-edge-01', '{"mode": "api", "admin_url": "http://localhost:2019"}', true, NOW() - INTERVAL '45 days', NOW()),
('tgt-nginx-data', 'NGINX Data Services', 'nginx', 'ag-data-prod', '{"cert_path": "/etc/nginx/ssl/cert.pem", "key_path": "/etc/nginx/ssl/key.pem", "reload_command": "nginx -s reload"}', true, NOW() - INTERVAL '90 days', NOW())
('tgt-nginx-prod', 'NGINX Production', 'NGINX', 'ag-web-prod', '{"cert_path": "/etc/nginx/ssl/cert.pem", "key_path": "/etc/nginx/ssl/key.pem", "reload_command": "nginx -s reload"}', true, NOW() - INTERVAL '120 days', NOW()),
('tgt-nginx-staging', 'NGINX Staging', 'NGINX', 'ag-web-staging', '{"cert_path": "/etc/nginx/ssl/cert.pem", "key_path": "/etc/nginx/ssl/key.pem", "reload_command": "nginx -s reload"}', true, NOW() - INTERVAL '90 days', NOW()),
('tgt-haproxy-prod', 'HAProxy Production', 'HAProxy', 'ag-lb-prod', '{"combined_pem_path": "/etc/haproxy/ssl/site.pem", "reload_command": "systemctl reload haproxy"}', true, NOW() - INTERVAL '150 days', NOW()),
('tgt-apache-prod', 'Apache Production', 'Apache', 'ag-web-prod', '{"cert_path": "/etc/httpd/ssl/cert.pem", "key_path": "/etc/httpd/ssl/key.pem", "chain_path": "/etc/httpd/ssl/chain.pem", "reload_command": "apachectl graceful"}', true, NOW() - INTERVAL '100 days', NOW()),
('tgt-iis-prod', 'IIS Production', 'IIS', 'ag-iis-prod', '{"site_name": "Default Web Site", "binding_info": "*:443:"}', true, NOW() - INTERVAL '60 days', NOW()),
('tgt-traefik-prod', 'Traefik Production', 'Traefik', 'ag-k8s-prod', '{"watch_dir": "/etc/traefik/dynamic/certs"}', true, NOW() - INTERVAL '30 days', NOW()),
('tgt-caddy-prod', 'Caddy Production', 'Caddy', 'ag-edge-01', '{"mode": "api", "admin_url": "http://localhost:2019"}', true, NOW() - INTERVAL '45 days', NOW()),
('tgt-nginx-data', 'NGINX Data Services', 'NGINX', 'ag-data-prod', '{"cert_path": "/etc/nginx/ssl/cert.pem", "key_path": "/etc/nginx/ssl/key.pem", "reload_command": "nginx -s reload"}', true, NOW() - INTERVAL '90 days', NOW())
ON CONFLICT (id) DO NOTHING;
-- ============================================================
@@ -128,7 +130,7 @@ INSERT INTO certificate_profiles (id, name, description, allowed_key_algorithms,
ON CONFLICT (id) DO NOTHING;
-- ============================================================
-- 7. Managed Certificates (35 certs across multiple issuers and environments)
-- 7. Managed Certificates (32 certs across multiple issuers and environments)
-- ============================================================
INSERT INTO managed_certificates (id, name, common_name, sans, environment, owner_id, team_id, issuer_id, renewal_policy_id, status, expires_at, tags, last_renewal_at, last_deployment_at, created_at, updated_at) VALUES
-- ---- Active, healthy production certs (Local CA) ----
migrations/seed_test.sql
+143
View File
@@ -0,0 +1,143 @@
-- =============================================================================
-- certctl Test Environment — Seed Data
-- =============================================================================
--
-- Pre-populates the database with the minimum objects needed to test the full
-- certificate lifecycle against real CA backends (Pebble, step-ca, Local CA).
--
-- Load order (handled by Docker entrypoint filename sorting):
-- 001_schema.sql → ... → 008_verification.sql → 010_seed.sql → 015_seed_test.sql
--
-- All IDs use a "test-" prefix so they're easy to spot in the dashboard.
-- =============================================================================
-- ---------------------------------------------------------------------------
-- Team
-- ---------------------------------------------------------------------------
INSERT INTO teams (id, name, description)
VALUES (
'team-test-ops',
'Test Operations',
'Operations team for certctl testing environment'
) ON CONFLICT (id) DO NOTHING;
-- ---------------------------------------------------------------------------
-- Owner (references team)
-- ---------------------------------------------------------------------------
INSERT INTO owners (id, name, email, team_id)
VALUES (
'owner-test-admin',
'Test Admin',
'admin@certctl-test.local',
'team-test-ops'
) ON CONFLICT (id) DO NOTHING;
-- ---------------------------------------------------------------------------
-- Agent — must exist before the agent binary sends its first heartbeat
-- ---------------------------------------------------------------------------
-- The agent binary (certctl-agent container) connects with:
-- CERTCTL_AGENT_ID=agent-test-01
-- CERTCTL_AGENT_NAME=test-agent-01
-- The heartbeat handler does a GET by ID — if the agent doesn't exist, it 404s.
-- api_key_hash is SHA-256 of "test-agent-key-2026" (not used for auth, just stored).
INSERT INTO agents (id, name, hostname, status, registered_at, api_key_hash, os, architecture, ip_address, version)
VALUES (
'agent-test-01',
'test-agent-01',
'certctl-test-agent',
'online',
NOW(),
'cad819dee454889f686d678f691e5084e58ba149762eae2fda4d0bd2abaceefa',
'linux',
'amd64',
'10.30.50.8',
'test'
) ON CONFLICT (id) DO NOTHING;
-- The network scanner uses "server-scanner" as a virtual agent.
-- It gets auto-created by the server code, but seed it here to avoid races.
INSERT INTO agents (id, name, hostname, status, registered_at, api_key_hash)
VALUES (
'server-scanner',
'server-scanner',
'certctl-server',
'online',
NOW(),
'no-key'
) ON CONFLICT (id) DO NOTHING;
-- ---------------------------------------------------------------------------
-- Issuers — one row per CA backend in the test environment
-- ---------------------------------------------------------------------------
-- These are metadata records the dashboard reads. The actual CA connections
-- are configured via env vars on the server container.
-- Local CA (self-signed, always available)
INSERT INTO issuers (id, name, type, config, enabled)
VALUES (
'iss-local',
'Local CA (Self-Signed)',
'local',
'{"mode": "self-signed", "description": "Built-in self-signed CA for testing"}'::jsonb,
true
) ON CONFLICT (id) DO NOTHING;
-- ACME via Pebble (simulates Let''s Encrypt)
INSERT INTO issuers (id, name, type, config, enabled)
VALUES (
'iss-acme-staging',
'ACME (Pebble Test CA)',
'acme',
'{"directory_url": "https://pebble:14000/dir", "email": "test@certctl.dev", "challenge_type": "http-01", "description": "Pebble ACME test server simulating Lets Encrypt"}'::jsonb,
true
) ON CONFLICT (id) DO NOTHING;
-- step-ca (Smallstep private CA)
INSERT INTO issuers (id, name, type, config, enabled)
VALUES (
'iss-stepca',
'step-ca (Private CA)',
'stepca',
'{"url": "https://step-ca:9000", "provisioner": "admin", "description": "Smallstep private CA with JWK provisioner"}'::jsonb,
true
) ON CONFLICT (id) DO NOTHING;
-- ---------------------------------------------------------------------------
-- Certificate Profile — TLS server certs, 90-day max
-- ---------------------------------------------------------------------------
INSERT INTO certificate_profiles (id, name, description, max_ttl_seconds, allowed_ekus, allowed_key_algorithms)
VALUES (
'prof-test-tls',
'Test TLS Server',
'Standard TLS server certificate profile for testing',
7776000, -- 90 days
'["serverAuth"]'::jsonb,
'[{"algorithm": "ECDSA", "min_size": 256}, {"algorithm": "RSA", "min_size": 2048}]'::jsonb
) ON CONFLICT (id) DO NOTHING;
-- ---------------------------------------------------------------------------
-- Certificate Profile — S/MIME email protection
-- ---------------------------------------------------------------------------
INSERT INTO certificate_profiles (id, name, description, max_ttl_seconds, allowed_ekus, allowed_key_algorithms)
VALUES (
'prof-test-smime',
'Test S/MIME Email',
'S/MIME certificate profile for email signing and encryption',
31536000, -- 365 days
'["emailProtection"]'::jsonb,
'[{"algorithm": "ECDSA", "min_size": 256}, {"algorithm": "RSA", "min_size": 2048}]'::jsonb
) ON CONFLICT (id) DO NOTHING;
-- ---------------------------------------------------------------------------
-- Deployment Target — NGINX (references agent-test-01)
-- ---------------------------------------------------------------------------
-- The agent deploys certs to NGINX via the shared nginx_certs volume.
INSERT INTO deployment_targets (id, name, type, agent_id, config, enabled)
VALUES (
'target-test-nginx',
'Test NGINX',
'NGINX',
'agent-test-01',
'{"cert_path": "/nginx-certs/cert.pem", "key_path": "/nginx-certs/key.pem", "chain_path": "/nginx-certs/chain.pem", "reload_command": "true", "validate_command": "true"}'::jsonb,
true
) ON CONFLICT (id) DO NOTHING;
web/src/config/issuerTypes.ts
+27 -6
View File
@@ -40,6 +40,7 @@ export const typeLabels: Record<string, string> = {
openssl: 'OpenSSL/Custom',
VaultPKI: 'Vault PKI',
DigiCert: 'DigiCert',
Sectigo: 'Sectigo SCM',
manual: 'Manual',
};
@@ -120,12 +121,32 @@ export const issuerTypes: IssuerTypeConfig[] = [
],
},
{
id: 'sectigo',
name: 'Sectigo',
description: 'Sectigo Certificate Manager \u2014 coming soon',
icon: '\uD83D\uDCE6',
configFields: [],
comingSoon: true,
id: 'Sectigo',
name: 'Sectigo SCM',
description: 'Sectigo Certificate Manager for DV, OV, and EV certificates',
icon: '\uD83D\uDD10',
configFields: [
{ key: 'customer_uri', label: 'Customer URI', required: true, placeholder: 'your-org-uri' },
{ key: 'login', label: 'API Login', required: true, placeholder: 'api-account-name' },
{ key: 'password', label: 'API Password', required: true, sensitive: true, type: 'password' },
{ key: 'org_id', label: 'Organization ID', required: true, placeholder: '12345', type: 'number' },
{ key: 'cert_type', label: 'Certificate Type ID', required: false, placeholder: '423', type: 'number' },
{ key: 'term', label: 'Validity (days)', required: false, placeholder: '365', type: 'number' },
{ key: 'base_url', label: 'Base URL', required: false, placeholder: 'https://cert-manager.com/api' },
],
},
{
id: 'GoogleCAS',
name: 'Google CAS',
description: 'Google Cloud Certificate Authority Service \u2014 managed private CA on GCP',
icon: '\u2601\uFE0F',
configFields: [
{ key: 'project', label: 'GCP Project ID', required: true, placeholder: 'my-gcp-project' },
{ key: 'location', label: 'Location', required: true, placeholder: 'us-central1' },
{ key: 'ca_pool', label: 'CA Pool', required: true, placeholder: 'my-ca-pool' },
{ key: 'credentials', label: 'Service Account JSON Path', required: true, placeholder: '/path/to/credentials.json', sensitive: true },
{ key: 'ttl', label: 'Default TTL', required: false, placeholder: '8760h' },
],
},
{
id: 'entrust',
web/src/pages/TargetDetailPage.tsx
+10 -5
View File
@@ -164,11 +164,16 @@ export default function TargetDetailPage() {
<h3 className="text-sm font-semibold text-ink-muted mb-4">Configuration</h3>
{target.config && Object.keys(target.config).length > 0 ? (
<div className="space-y-0">
{Object.entries(target.config).map(([key, val]) => (
<InfoRow key={key} label={key.replace(/_/g, ' ')} value={
<span className="font-mono text-xs truncate max-w-xs inline-block">{String(val)}</span>
} />
))}
{Object.entries(target.config).map(([key, val]) => {
const sensitiveKeys = ['password', 'secret', 'token', 'key', 'winrm_password'];
const isSensitive = sensitiveKeys.some(s => key.toLowerCase().includes(s));
const displayVal = isSensitive && val ? '********' : String(val);
return (
<InfoRow key={key} label={key.replace(/_/g, ' ')} value={
<span className="font-mono text-xs truncate max-w-xs inline-block">{displayVal}</span>
} />
);
})}
</div>
) : (
<div className="text-sm text-ink-faint py-4 text-center">No configuration data</div>
web/src/pages/TargetsPage.tsx
+48 -7
View File
@@ -16,6 +16,9 @@ const typeLabels: Record<string, string> = {
haproxy: 'HAProxy',
traefik: 'Traefik',
caddy: 'Caddy',
envoy: 'Envoy',
postfix: 'Postfix',
dovecot: 'Dovecot',
f5_bigip: 'F5 BIG-IP',
iis: 'IIS',
};
@@ -26,8 +29,11 @@ const TARGET_TYPES = [
{ value: 'haproxy', label: 'HAProxy', description: 'Combined PEM file (cert+chain+key), optional validate, reload' },
{ value: 'traefik', label: 'Traefik', description: 'File provider deployment — writes cert/key to watched directory, auto-reload' },
{ value: 'caddy', label: 'Caddy', description: 'Admin API hot-reload or file-based deployment with configurable mode' },
{ value: 'f5_bigip', label: 'F5 BIG-IP', description: 'iControl REST via proxy agent (V3 implementation)' },
{ value: 'iis', label: 'IIS', description: 'Windows IIS via agent-local PowerShell or proxy WinRM (V3 implementation)' },
{ value: 'envoy', label: 'Envoy', description: 'File-based deployment — writes cert/key to watched directory. Optional SDS file generation.' },
{ value: 'postfix', label: 'Postfix', description: 'Postfix MTA — file write + postfix reload' },
{ value: 'dovecot', label: 'Dovecot', description: 'Dovecot IMAP/POP3 — file write + doveadm reload' },
{ value: 'f5_bigip', label: 'F5 BIG-IP', description: 'iControl REST — cert upload, SSL profile update via proxy agent' },
{ value: 'iis', label: 'IIS', description: 'Windows IIS via agent-local PowerShell or remote WinRM proxy agent' },
];
const CONFIG_FIELDS: Record<string, { key: string; label: string; placeholder: string; required?: boolean }[]> = {
@@ -60,16 +66,51 @@ const CONFIG_FIELDS: Record<string, { key: string; label: string; placeholder: s
{ key: 'cert_file', label: 'Certificate Filename', placeholder: 'cert.pem (default)' },
{ key: 'key_file', label: 'Key Filename', placeholder: 'key.pem (default)' },
],
envoy: [
{ key: 'cert_dir', label: 'Certificate Directory', placeholder: '/etc/envoy/certs', required: true },
{ key: 'cert_filename', label: 'Certificate Filename', placeholder: 'cert.pem (default)' },
{ key: 'key_filename', label: 'Key Filename', placeholder: 'key.pem (default)' },
{ key: 'chain_filename', label: 'Chain Filename (optional)', placeholder: 'chain.pem (leave empty to append to cert)' },
{ key: 'sds_config', label: 'Generate SDS Config', placeholder: 'true or false' },
],
postfix: [
{ key: 'cert_path', label: 'Certificate Path', placeholder: '/etc/postfix/certs/cert.pem' },
{ key: 'key_path', label: 'Key Path', placeholder: '/etc/postfix/certs/key.pem' },
{ key: 'chain_path', label: 'Chain Path (optional)', placeholder: '/etc/postfix/certs/chain.pem' },
{ key: 'reload_command', label: 'Reload Command', placeholder: 'postfix reload' },
{ key: 'validate_command', label: 'Validate Command', placeholder: 'postfix check' },
],
dovecot: [
{ key: 'cert_path', label: 'Certificate Path', placeholder: '/etc/dovecot/certs/cert.pem' },
{ key: 'key_path', label: 'Key Path', placeholder: '/etc/dovecot/certs/key.pem' },
{ key: 'chain_path', label: 'Chain Path (optional)', placeholder: '/etc/dovecot/certs/chain.pem' },
{ key: 'reload_command', label: 'Reload Command', placeholder: 'doveadm reload' },
{ key: 'validate_command', label: 'Validate Command', placeholder: 'doveconf -n' },
],
f5_bigip: [
{ key: 'management_ip', label: 'Management IP', placeholder: '192.168.1.100', required: true },
{ key: 'host', label: 'Management Host', placeholder: 'f5.internal.example.com', required: true },
{ key: 'port', label: 'Management Port', placeholder: '443' },
{ key: 'username', label: 'Username', placeholder: 'admin', required: true },
{ key: 'password', label: 'Password', placeholder: 'F5 admin password', required: true },
{ key: 'partition', label: 'Partition', placeholder: 'Common' },
{ key: 'proxy_agent_id', label: 'Proxy Agent ID', placeholder: 'agent-f5-proxy' },
{ key: 'ssl_profile', label: 'SSL Profile', placeholder: 'clientssl_api', required: true },
{ key: 'insecure', label: 'Skip TLS Verify', placeholder: 'true (default)' },
{ key: 'timeout', label: 'Timeout (seconds)', placeholder: '30' },
],
iis: [
{ key: 'site_name', label: 'IIS Site Name', placeholder: 'Default Web Site', required: true },
{ key: 'binding_ip', label: 'Binding IP', placeholder: '*' },
{ key: 'binding_port', label: 'Binding Port', placeholder: '443' },
{ key: 'cert_store', label: 'Certificate Store', placeholder: 'My' },
{ key: 'cert_store', label: 'Certificate Store', placeholder: 'My', required: true },
{ key: 'port', label: 'HTTPS Port', placeholder: '443' },
{ key: 'ip_address', label: 'Binding IP', placeholder: '*' },
{ key: 'binding_info', label: 'Host Header (SNI)', placeholder: 'www.example.com' },
{ key: 'sni', label: 'Enable SNI', placeholder: 'true or false' },
{ key: 'mode', label: 'Deployment Mode', placeholder: 'local (default) or winrm' },
{ key: 'winrm.winrm_host', label: 'WinRM Host (remote mode)', placeholder: 'iis-server.example.com' },
{ key: 'winrm.winrm_port', label: 'WinRM Port', placeholder: '5985 (HTTP) or 5986 (HTTPS)' },
{ key: 'winrm.winrm_username', label: 'WinRM Username', placeholder: 'Administrator' },
{ key: 'winrm.winrm_password', label: 'WinRM Password', placeholder: '(sensitive)' },
{ key: 'winrm.winrm_https', label: 'WinRM Use HTTPS', placeholder: 'true or false' },
{ key: 'winrm.winrm_insecure', label: 'WinRM Skip TLS Verify', placeholder: 'false' },
],
};