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ng-eventually/docs/fork-inbox-fallback.md
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Sylvain Duchesne bea9f51d91 docs: own the current-NextGraph-state knowledge + boundary (lib side)
This library presents a mature-NextGraph SDK face to consumers while
compensating for the current SDK's gaps via a shared-wallet simulation. It
therefore OWNS all current-state + simulation knowledge — moved here out of the
Festipod app repo, which must treat this library as a finished SDK.

New docs/:
- nextgraph-current-state.md — what the current SDK/broker do and don't expose
  (5 store types, document=repo, per-document ReadCap, inbox not exposed, iframe
  RPC proxy, mono-user/no-global-data, wallet import constraint). Keeps the
  nextgraph-rs source pointers.
- simulation.md — how the lib emulates the mature behaviour on one shared wallet
  (shim, store!=document two axes, docCreate→private store, RepoNotFound scope
  rule, @ng-org double-proxy DataCloneError, emulated ReadCap/inbox/curator).
- decisions/ — the current-SDK ADRs (private-store-nuri-scope, sparql-delete,
  shared-wallet-login, discovery mechanism).
- fork-inbox-fallback.md — the Rust-patch/self-host route not taken.
- migration-guide.md — the checklist for when real NextGraph matures.

README: boundary framing from the lib's side + docs/ index; replaced the stale
"scaffold/stubbed" status with the actually-implemented mechanisms per source.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-07-03 23:23:23 +02:00

5.1 KiB

Fallback — forking NextGraph to expose the inbox (path NOT taken)

Status: NOT taken — short-circuited by this lib's emulated inbox (inbox.ts, see simulation.md). Kept as the fallback plan if a native broker inbox ever becomes necessary — chiefly for the crypto anonymity the emulation does not provide (native from = None sealed deposit).

Current NextGraph does not expose the inbox to the JS SDK: the verifier has no InboxPost arm and no wasm helper seals a deposit (see nextgraph-current-state.md § Inbox). Two ways to get a real inbox: emulate it (what this lib does) or fork the engine (this document). The emulation won; this is the archived alternative.

Strategic posture

The fork would be explicitly temporary, not for upstream. Hypothesis: NextGraph will eventually expose its own JS-SDK inbox solution, possibly different. When it lands, drop the fork and adapt. No PR is targeted. This posture is the reason the emulation was preferred: it avoids maintaining a fork + hosting a full stack for a feature the upstream will likely ship differently.

Layer 1 — the Rust patch: 4 files (vanilla broker)

  1. engine/net/src/types.rsInboxMsgContent::Link is a unit variant (stub); give it a payload (or a Notification variant) carrying the target NURI + link to the deposited reference. Add an InboxPost::new_link(...) builder modeled on new_contact_details. from = None → anonymity.
  2. engine/verifier/src/request_processor.rs — add the missing command arm (there is no InboxPost arm). Ideally a high-level command (NotifyInbox) that builds the post on the Rust side (keeps crypto sealing in Rust). Model on SocialQueryStart.
  3. sdk/js/lib-wasm/src/lib.rs — expose pub async fn inbox_post_link( session_id, to_inbox_nuri, to_profile_nuri, link, anonymous), modeled on social_query_start.
  4. engine/verifier/src/inbox_processor.rs (process_inbox) — a receive arm that materializes the message into a document in the owner's store (model on the ContactDetails handler). The app then reads via ORM/SPARQL — no new inbox-read API.

Identity resolution (known/anonymous): free via app-side SPARQL (JOIN the sender inbox NURI against social:contact docs). Discovering the owner's inbox: embed the owner's public_store inbox NURI in the entity document or public profile (the QR profile-share flow already carries it).

Layer 2 — deployment (from the fork)

The patched verifier runs in the iframe ng-app (see integration model in nextgraph-current-state.md) → build and self-host ngd + the ng-app from the fork, then rebuild Festipod's @ng-org/web with NG_REDIR_SERVER/NG_DEV* pointing at that ng-app. No rewrite of the third-party integration (stays iframe). The broker's inbox routing is already native, but since the patched ng-app is self-hosted, the whole stack ships from the fork (one source tree).

Coolify hosting — 3 web pieces

  1. ngd — stateful WebSocket daemon: container with a persistent volume for --base-path (RocksDB + keys + PeerId, never wiped), --domain mode behind Coolify's Traefik. Build: official Dockerfiles are broken → write a custom multi-stage Rust Dockerfile (RocksDB needs llvm/clang). First boot is interactive (admin-wallet invitation link) → script via ngcli or do it once by hand then persist in the volume.
  2. ng-app (iframe frontend, patched wasm) — static build (pnpm webfilebuild). Served statically.
  3. Routing: one domain serves the ng-app static AND proxies the WebSocket to ngd.

Layer 1 (JS libs) — patched client npm packages

Maintain patched client packages, not just the wasm. The generic forwarding technically reaches a wasm method without touching the JS, but that's an untyped hack — quick test only. To modify for real:

  • @ng-org/web — modified anyway (broker URL) → add inbox_post_link to the typed API surface + .d.ts.
  • Streamed methods (if inbox reads ever stream) — need an entry on both sides. For write-only (request/response) — unneeded.
  • @ng-org/orm — only if inbox writes join the ORM flow. Otherwise unneeded.

Layer 3 — consumer integration

Exposing the method is not enough; the consumer must model the entity + its inbox NURI, write the registration, deposit into the host inbox, and read/resolve notifications. Several of these are already done in the shared-wallet emulation (registration wired on the emulated inbox.post), which is precisely why this fork was not needed.

Why this fallback still matters

The emulated inbox stores from = null as absence of a triple; it does not seal deposits, so it does not provide the target's crypto anonymity. If a consumer needs true anonymous-but-verifiable deposits to a non-connected host, only a native inbox (from = None sealed) delivers it — and this fork is the route. Until then, the emulation is sufficient.