Files
ng-eventually/packages/client
Sylvain Duchesne 9103996dbe fix(client): dé-dupliquer les ensureAccount concurrents au cold-start (fork résolu)
Dernière couche du bug de reconnexion : au cold-start, `watchShape` public +
protected + l'effet owned-events appellent `ensureAccount(A)` quasi-simultanément
AVANT la sync du shim → chacun lit 0 → chacun provisionne un nouveau jeu de docs
(fork par-appelant) → la résolution déterministe canonique fait alors diverger
lecteur et écrivain sur le docProtected → `readScopeIndex` vide.

Fix : `ensureInFlight` (map de promesses) dé-duplique les provisions concurrentes
en UNE seule ; `discovery.readIndex` ouvre son repo au cold-start (`ensureRepoOpen`).
Avec la résolution canonique déjà committée, écrivain et lecteur convergent.
Mesuré (levier isSuccess) : la participation protected converge `isSuccess=true,
data=1` sur la page fraîche (plus « vide à 30s »).

gate : tsc 0 ; bun test 123 ; test:e2e 42/42.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-07-10 11:29:59 +02:00
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@ng-eventually/client

Two entry points — the data-plane is SDK-identical, the polyfill bootstrap is separate:

Import Surface
@ng-eventually/client The same signature as the SDK — ng, useShape, inbox (+ types). A drop-in for @ng-org/web / @ng-org/orm; as NextGraph matures it resolves to the real SDK (build alias removed) with no code change.
@ng-eventually/client/polyfill The only non-SDK surface — configure, setCurrentUser, and capability helpers (getCaps, grantRead, canRead/canWrite). It falls away as NextGraph matures.
// bootstrap (the only non-SDK call) — inject the real SDK
import { configure } from "@ng-eventually/client/polyfill";
configure({ ng: realNg, useShape: realUseShape, sharedWallet, currentUser });

// from here on, a pure SDK surface:
import { ng, useShape, inbox } from "@ng-eventually/client";
await ng.doc_create(/* … */);
const set = useShape(MyShape, scope);   // filtered to what the identity may read
await inbox.post(targetInbox, ref);     // deposit (anticipated SDK API)

Principle — the polyfill compensates, it never extends

The polyfill's ONLY reason to exist is to bridge a NextGraph implementation gap or a bug. Every non-SDK surface must map to a capability NextGraph will provide natively, and must fall away at that point. The polyfill MUST NOT add functionality of its own — no bespoke features, no observability/tooling, no convenience API that isn't strictly "NextGraph will do this natively later." The test for any proposed addition: does it compensate a real, exhibited NextGraph gap or bug? If not, it does not belong here — build it in the consumer application, not in the polyfill. Corollary: a compensation whose gap is not actually exhibited on the target broker is dead weight, not defensive code — it should be removed, not kept "just in case."

What the polyfill adds on top of the real SDK (each emulated for now, native as NextGraph matures):

  • Shared-wallet identity (one wallet for everyone; the current identity id is relayed to the SDK).
  • Capability enforcement — a read filter + write guard over emulated grants attached to documents; the app declares a document's read policy and issues directed read grants.
  • Anticipated methods (inbox post, capability ops) with their future-SDK shapes, emulated for now.

Generic: no application domain. The consumer application injects its shapes and performs the acts of granting access. The relationship concept ("who is connected to whom") is the consumer application's own — the client exposes only directed per-document read grants.