# ROADMAP — Keysat Longer-term backlog. Near-term state lives in `AGENTS.md` → Current state. ## Payments & subscriptions - Rail-preference editing UI — only matters when two providers on one profile both serve the same rail; settable today via `PUT /v1/admin/merchant-profiles/:id/rail-preferences/:rail`. - **Auto-charge silently lapses a subscription on a 200-with-failure response (money-path bug; elevated above the other parked payments items).** `try_auto_charge_zaprite` returns `Ok(true)` on *any* HTTP 2xx (`subscriptions.rs:1403-1410`), reading the order `status` only for a log line. If Zaprite returns 200 carrying a `FAILED`/`DECLINED`/`EXPIRED` order status, the daemon fires `auto_charge_initiated` and then waits for an `order.paid` webhook that never arrives — the subscription silently lapses, no error surfaced, the customer churns. Safe fix (no production data needed): treat any non-`PAID` terminal order status as not-success and fall through to the manual-pay path — a conservative fail-safe, ~10 lines + a mock-provider test. (Found during the 2026-06-17 adjudication; it replaces the old "harden Zaprite failure-body shapes" item, which was already satisfied for non-2xx responses — those route correctly to WARN + `auto_charge_failed` audit + webhook + manual-pay fallback.) ## Agent compatibility & scoped API keys - **Agent-delegable payment-provider connect** (approved, not urgent — see `plans/agent-payment-connect-scope.md`). Add an à-la-carte `payment_providers:write` scope (never bundled into `merchant-onboard`), gated by a daemon-level **sandbox-mode flag** as the outer gate (production daemons reject scoped connect entirely) with a **network gate** inner defense (regtest/testnet/signet only, fail-closed to mainnet). BTCPay network is derived from an on-chain address prefix (no `server/info` field exists). - **Onboarding doc-harness — Stage 2 (Path 2, regtest buyer-pays).** Gated on slices 3–5 above. Stage 1 (Path 1, no payments) shipped `completed-clean` this session — harness at `licensing-service-startos/onboarding-harness/`, record in its `STAGE1-RESULT.md`. Stage 2 reuses the harness but boots the fixture with `KEYSAT_SANDBOX_MODE` on, stands up a Dockerized BTCPay regtest stack (bitcoind regtest + NBXplorer + Postgres + BTCPay) as additional disposable infra, and grants the agent `merchant-onboard` + `payment_providers:write`. Goal: the agent connects BTCPay (regtest) over the API and drives a test buyer payment that activates a license, with zero master-key steps. The walkthrough must be explicitly labeled regtest/test-network and must state that connecting a real mainnet wallet is the one operator-reserved step **by design** (a key that can redirect funds stays with the human) — a security feature, not a gap. ## Packaging & distribution - Start9 Community Registry submission — a 2026-06-17 spec check found the wrapper passes the functional criteria (manifest, interfaces, health check, backup/restore, BTCPay dep, actions). Remaining gap before submission: add a `prepare.sh` to set up a clean Debian box for the first build (copy the one from `hello-world-startos`), then run the on-box manual verification (install / backup / restore / logs). Submission criteria themselves remain unpublished; reach out to Start9 when ready. (Icon-render and the source-available license are intentionally not treated as blockers.) ## Operability & alerts - **Surface internal failure conditions to the operator via StartOS-native notifications / health checks** — NOT a bespoke email/SMTP subsystem. The need is real and not covered by the webhook-delegation model: when the failure IS the webhook path (a dead-lettered endpoint, or the operator's receiver being down), a webhook can't report it, and the operator's own email pipeline is downstream of the same webhooks. So Keysat must own an out-of-band operator-visible channel — and on StartOS that channel is the OS notification/health surface, not a mailer Keysat ships itself. Conditions worth alerting on (the surviving kernel of the dropped email plan): payment-provider auth dead (repeated 401s ⇒ key revoked/rotated), a webhook endpoint hitting dead-letter, master self-license expiring-soon / expired, and (optional) renewals failing across the pool. The health-check path is already wired; verify the `start-sdk` 1.3.2 notification API before committing to a delivery mechanism. Background + the original alert catalog (Tier 1/2/3, throttling) live in the superseded `plans/keysat-smtp-emails.md`. **Buyer-facing email and the per-profile SMTP send path are dropped** (decided 2026-06-18): operators selling via Keysat already own their buyer relationship and email pipeline through their own app + the existing webhooks, so Keysat emailing buyers is redundant and a branding/double-send liability. The dormant `merchant_profiles.smtp_*` columns (migration 0020) are now dead weight — left in place (a removal migration isn't worth it) and flagged in `src/merchant_profiles.rs`. ## Licensing model - Evaluate Elastic License v2 vs the current custom `LicenseRef-Keysat-1.0` (parked decision). ## Validation - Re-test `KEYSAT_INTEGRATION.md` against a fresh downstream app to confirm a clean one-shot SDK integration. - **Add an automated regression test for multi-profile webhook routing** (adjudicated 2026-06-17 → DO, low blast radius — replaces the parked "manual Zaprite sandbox pass"). The routing is a deterministic provider-id→profile primary-key lookup with an anti-forgery re-fetch backstop, so the manual sandbox ceremony isn't worth it — but the path-keyed route (`/v1/{provider}/webhook/:provider_id` → `handle_for_provider`) currently has zero automated coverage on the money path. Plan: in `tests/api.rs`, reuse the two-provider fixture (~:3958), POST a Settled webhook to `/v1/zaprite/webhook/{provider-A-id}`, assert only profile A settles (B untouched; an unknown path-id 404s). Existing mock seam, no external account, runs in `cargo test`. Effort S.