Grant
89f1b89705
Backend is now feature-complete for :52. Admin UI still has to consume
these endpoints (part 5) but every operation the UI needs has a
working API surface behind it.
api/merchant_profiles.rs (new module)
Axum handlers wrapping the merchant_profiles::* business-logic helpers
and the rail-preference repo helpers. Each endpoint writes an audit
entry so the operator can see every profile/rail-preference change
in the audit log.
GET /v1/admin/merchant-profiles list + summarize
POST /v1/admin/merchant-profiles create (tier-gated)
GET /v1/admin/merchant-profiles/:id detail + providers + rail prefs + counts
PATCH /v1/admin/merchant-profiles/:id partial update
DELETE /v1/admin/merchant-profiles/:id refuses if attached
POST /v1/admin/merchant-profiles/:id/set-default transactional flip
PUT /v1/admin/merchant-profiles/:id/rail-preferences/:rail validates + persists
DELETE /v1/admin/merchant-profiles/:id/rail-preferences/:rail clears the override
set_rail_preference validates THREE things before persisting: rail
name is one of lightning/onchain/card; the provider exists; the
provider is attached to THIS profile; AND it serves this rail. So
the operator can't pin "Card" to a BTCPay row, and can't pin a
provider that belongs to a different profile.
list/get redact SMTP password (smtp_configured: bool is enough for
the UI to render "configured/not configured" status; the actual
password stays write-only). The edit form submits a new password
only when the operator explicitly rotates it.
api/tier.rs
New enforce_merchant_profile_cap helper. Refuses with HTTP 402
AppError::PaymentRequired when a Creator-tier operator already has
one profile (the default) and the self-license lacks the new
`unlimited_merchant_profiles` entitlement. Same shape as the
existing enforce_product_cap / enforce_policy_cap helpers — the
admin UI's existing tier-cap modal renders the upgrade CTA from
the upgrade_url field.
Note: master Keysat's Pro and Patron policies need
`unlimited_merchant_profiles` added to their entitlement JSON as a
separate admin action on the master keysat.xyz instance — purely
data, no code change. Master operator self-license must be re-
issued (or naturally renewed) to pick up the new entitlement.
merchant_profiles.rs
create() now calls enforce_merchant_profile_cap before INSERT.
Replaces the TODO comment from part 1.
api/mod.rs
Registers the merchant_profiles module and wires the routes above.
Build: cargo check passes. Two warnings remaining — both expected:
- recover.rs unused-import (pre-existing, unrelated)
- SETTING_ACTIVE_PROVIDER inside the shim's own pre-migration
fallback branch
Backend status: every multi-provider story (purchase routing,
subscription snapshot, webhook delivery, connect/disconnect, profile
CRUD, tier gating) is now wired to the new schema. Only the admin UI
+ a version bump remain.
What's left for :52:
- Admin UI in web/index.html — Merchant Profiles section, product
picker, buy-page brand block + rail picker. Roughly 600-1000 lines
of HTML/CSS/JS consuming the new endpoints. Largest single
remaining piece.
- Version bump to :52 + release notes flagging the one-way migration
+ the post-migration manual Zaprite-webhook-URL update.
- End-to-end sandbox test against two profiles + two Zaprite orgs.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Keysat
Keysat is a Bitcoin-native, self-hosted licensing service for software creators, designed to run as a Start9 0.4.0.x service alongside BTCPay Server (or Zaprite for Bitcoin + cards). One instance can sell, issue, validate, and revoke licenses for any number of software products you own.
The repository directory is still called
licensing-service/on disk for continuity with earlier revisions. The crate, the binary, the StartOS package id, and all user-visible strings use Keysat.
Every developer who uses this runs their own instance on their own hardware. There is no central authority, no shared database, and no dependency on anyone else's servers. Your keys, your products, your customers, your rules.
What it does
- Exposes a REST API for selling and managing software licenses paid for in Bitcoin via BTCPay Server.
- Issues Ed25519-signed license keys that can be verified offline by any client with your server's public key — so downstream software doesn't break if your licensing server is briefly unreachable.
- Supports multiple products per instance, each with independent pricing and license pools.
- Supports closed-source, open-source-for-convenience, and open-core distribution models. The service doesn't care how you distribute source; it only validates keys against products.
- Optional per-license machine fingerprint binding with trust-on-first-use.
- Admin-gated endpoints for product management, manual license issuance (comps/press/testing), and revocation.
Architecture in two minutes
┌──────────────┐ ┌──────────────────────┐ ┌──────────────┐
│ Buyer's │──────▶│ licensing-service │──────▶│ BTCPay Server│
│ browser │ │ (this program) │ │ (Start9) │
└──────────────┘ └──────────────────────┘ └──────────────┘
▲ │ ▲ │
│ license key │ │ webhook │
│ ▼ │ │
│ ┌──────────────┐ │
└─────────────────│ SQLite │◀──────────────────┘
poll/status │ licensing.db
└──────────────┘
Downstream software (e.g. another Start9 package you sell):
on startup → POST /v1/validate { key, product_slug, fingerprint }
→ caches result, re-checks on reasonable cadence
- Buyer
POST /v1/purchase { product: "my-app" }→ we create a BTCPay invoice, return its checkout URL. - Buyer pays via BTCPay. BTCPay fires a signed webhook at
POST /v1/btcpay/webhook→ we mark the invoice settled and issue a license row. - Buyer polls
GET /v1/purchase/:invoice_id→ once settled, response contains the signedlicense_keystring. - Buyer installs the software. On startup the software calls
POST /v1/validateto check revocation and bind itself to the installation.
Why Ed25519-signed keys
Each license key is a compact, cryptographically signed envelope:
LIC1-<74-byte payload, base32>-<64-byte signature, base32>
The payload contains the product id, license id, issue time, an optional fingerprint hash, and a version byte. The server's private key signs it; anyone with the public key can verify it.
The practical benefit: downstream software can verify a key's signature offline, using a public key bundled at compile time. It only needs to reach your licensing server to check revocation, and it can cache that check. If your licensing server has an outage, existing installations keep working. If someone tries to forge a key, the signature fails instantly without a database lookup.
See src/crypto/mod.rs for the exact byte layout.
Project layout
licensing-service/
├── Cargo.toml
├── LICENSE # source-available; no redistribution
├── README.md
├── .env.example # required env vars
├── migrations/
│ └── 0001_initial.sql # SQLite schema
├── src/
│ ├── main.rs # entry point: wires everything
│ ├── config.rs # env-driven config
│ ├── error.rs # unified error → HTTP mapping
│ ├── models.rs # shared domain types
│ ├── crypto/
│ │ ├── mod.rs # license key format + sign/verify
│ │ └── keys.rs # server keypair lifecycle
│ ├── db/
│ │ ├── mod.rs # pool + migrations
│ │ └── repo.rs # all SQL queries
│ ├── btcpay/
│ │ ├── client.rs # Greenfield API client
│ │ └── webhook.rs # HMAC verification + event parsing
│ └── api/
│ ├── mod.rs # router + AppState
│ ├── products.rs # public product endpoints
│ ├── purchase.rs # buy + poll
│ ├── validate.rs # the hot path for downstream software
│ ├── webhook.rs # BTCPay landing
│ └── admin.rs # operator-only actions
└── docs/
├── API.md # full endpoint reference
├── INTEGRATION.md # for developers embedding a client
└── ARCHITECTURE.md # deeper design notes
Running locally
Prerequisites: Rust 1.75+, a BTCPay Server instance you can point at (local or hosted).
cp .env.example .env
# edit .env — generate admin key with: openssl rand -hex 32
# fill in BTCPay URL, API key, store id, webhook secret
cargo run --release
On first boot the server generates a fresh Ed25519 keypair and stores it in the SQLite database. Get the public key anytime from GET /v1/pubkey (or from the logs on first boot).
Creating your first product
curl -X POST http://localhost:8080/v1/admin/products \
-H "Authorization: Bearer $LICENSING_ADMIN_API_KEY" \
-H "Content-Type: application/json" \
-d '{
"slug": "my-app",
"name": "My App",
"description": "A cool Start9 service.",
"price_sats": 50000
}'
Walking through a purchase
# 1. Buyer starts a purchase
curl -X POST http://localhost:8080/v1/purchase \
-H "Content-Type: application/json" \
-d '{"product": "my-app"}'
# → { "invoice_id": "...", "checkout_url": "https://btcpay.../i/...", ... }
# 2. Buyer opens checkout_url, pays
# 3. Buyer polls
curl http://localhost:8080/v1/purchase/<invoice_id>
# → { "status": "settled", "license_key": "LIC1-...", ... }
# 4. Downstream software validates the key
curl -X POST http://localhost:8080/v1/validate \
-H "Content-Type: application/json" \
-d '{"key": "LIC1-...", "product_slug": "my-app", "fingerprint": "host-abc123"}'
# → { "ok": true, "license_id": "...", "product_id": "..." }
Deploying on Start9
This repository ships the service only. To package as an .s9pk for the 0.4.0.x platform you'll need a separate wrapper repository following docs.start9.com/packaging/0.4.0.x. The service is designed to slot in cleanly:
- Declares a dependency on BTCPay Server in the manifest. StartOS will make BTCPay reachable at a
.startoshostname and supply the env vars from the wrapper's action handlers. - Persists to
/data, so everything (SQLite DB including the signing key) is covered by one-click encrypted backups. - Binds to
0.0.0.0:8080and expects StartOS to handle Tor/LAN/clearnet exposure. - Graceful shutdown on SIGTERM, as StartOS expects.
- Environment-driven config, no config files needed at runtime.
When you're ready to write the manifest, the env vars you need to wire are listed in .env.example. The main gotcha is the BTCPay webhook secret: you configure it on the BTCPay side and it must match BTCPAY_WEBHOOK_SECRET exactly — we verify HMAC-SHA256 in constant time and reject any mismatch.
Developer integration
If you're a developer shipping software that should validate against a licensing-service instance, see docs/INTEGRATION.md. It covers:
- Bundling the server's public key in your client.
- Offline signature verification + online revocation check.
- Graceful handling of server outages (don't brick your users).
- Recommended caching and rate-limiting patterns.
Source-available licensing
This project is source-available, not open source. You may read, audit, self-host, and modify for your own use, but may not redistribute, resell, or publicly host for others. See LICENSE for the full terms.
Commercial redistribution / resale rights: contact licensing@keysat.xyz.
Status
v0.1 — minimal working implementation. Feature direction after this is expected to cover: SDK crates for Rust and TypeScript, s9pk wrapper repository, richer admin UI, invoice reconciliation job for dropped webhooks, per-product webhook endpoints for the operator.