feat(client): read via per-doc ANCHORED queries; document virtual vs physical wallet
The anchorless union query (`GRAPH ?g`) scanned EVERY named graph in the local
store (the whole shared physical wallet) → O(wallet size), slow/timeouts on a
bloated wallet. Rewrite `readUnion` to run ONE ANCHORED `sparql_query` per by-need
doc (in parallel, per-doc tolerant): an anchored query is restricted to that
repo's graph, so it is O(1) per doc, INDEPENDENT of physical-wallet size. Keep the
ReadCap defense-in-depth gate.
docs/simulation.md: new "Physical wallet vs virtual wallet" section — the physical
shared wallet is a substrate that accumulates and must NEVER be enumerated/scanned;
each user's VIRTUAL wallet (the account's scope index in the shim) is the bounded
thing you enumerate ("list my documents"), then read those docs per-doc anchored.
read-model.md / nextgraph-current-state.md updated to the per-doc anchored rule.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
This commit is contained in:
@@ -1,40 +1,48 @@
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/**
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* read-model — the LISTING primitive of the polyfill: open/sync a set of
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* documents, then run ONE anchorless union `sparql_query` over the LOCAL UNION
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* and return the triples grouped per subject. This is the mechanism documented
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* in docs/read-model.md, verified against the real broker (T03.k probe): a
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* `GRAPH ?g { ?s ?p ?o }` body with NO anchor spans every graph currently opened
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* in the session store.
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* read-model — the LISTING primitive of the polyfill: read a BOUNDED, by-need set
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* of documents, each with its OWN anchored `sparql_query`, and return the triples
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* grouped per subject. This is the mechanism documented in docs/read-model.md.
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*
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* ── WHY per-doc ANCHORED, never an anchorless union-scan ───────────────────
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* An ANCHORED `sparql_query(sid, "SELECT ?s ?p ?o WHERE { ?s ?p ?o }", base, doc)`
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* is restricted to the anchor repo's graph: `resolve_target_for_sparql(Repo)` →
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* `Some(repo_graph_name)`, which becomes the query's DEFAULT graph. A body with NO
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* `GRAPH` wrapper reads only that default graph → ONLY that doc's triples, O(1) per
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* doc, INDEPENDENT of how many other graphs the local store holds.
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*
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* An ANCHORLESS query (`anchor` undefined → `UserSite` → `set_default_graph_as_union`)
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* spans EVERY named graph currently in the session store. On a SHARED / bloated
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* wallet that accumulates across runs, that is O(wallet size) → the observed ~90s
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* timeouts. So the read path must NEVER union-scan all graphs: it reads exactly the
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* bounded by-need set, one anchored query per doc.
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*
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* NB (verified, docs/read-model.md § probe step 4): an explicit `GRAPH ?g { … }`
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* body iterates the NAMED graphs regardless of the default graph, so an anchor does
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* NOT bound such a body. The per-doc read therefore uses a DEFAULT-GRAPH body (no
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* `GRAPH` wrapper) so the anchor's one-repo restriction actually applies.
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*
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* ── WHY not the reactive ORM fan-out ──────────────────────────────────────
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* `useShape({ graphs: […manyDocs] })` drives `orm_start_graph` over a fan-out of
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* per-entity graphs; a freshly-created / not-yet-synced doc in that fan-out makes
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* `RepoNotFound` abort the whole subscription → the readyPromise never resolves →
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* the ~75s hang (docs/nextgraph-current-state.md § The ORM fan-out hang). Listing
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* MUST instead be a one-shot union `sparql_query`. There is no reactive union
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* query, so reactivity is assembled by RE-QUERYING on a change signal.
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*
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* ── The two steps ─────────────────────────────────────────────────────────
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* 1. OPEN/SYNC the docs. A repo is only in the union once opened into the
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* session's oxigraph store. Opening is done PER-DOC via an anchored probe
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* query (`resolveTargetForSparql(anchor)` opens that one repo) — per-doc, so a
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* single unreachable doc fails in isolation instead of aborting a fan-out.
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* 2. UNION QUERY. One anchorless `SELECT ?g ?s ?p ?o WHERE { GRAPH ?g { ?s ?p ?o } }`
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* over the local union; group rows by subject.
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* MUST instead be a set of one-shot anchored `sparql_query`s. There is no reactive
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* union query, so reactivity is assembled by RE-QUERYING on a change signal.
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*
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* ── GENERIC by construction ───────────────────────────────────────────────
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* Zero application domain here: the consumer passes the doc NURIs to open (from
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* Zero application domain here: the consumer passes the doc NURIs to read (from
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* the discovery index for public events, or its own scope docs for my-entities)
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* and interprets the returned per-subject property bags. All NextGraph I/O routes
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* through the T01.a `docs` primitives (the REAL injected `ng`), so this module
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* imports no `@ng-org` package.
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*
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* At migration the union query is unchanged (native SPARQL union over the wallet);
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* only the "open/sync" step swaps to opening real per-user store repos by cap.
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* At the real multi-store migration the per-doc anchored read is unchanged (native
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* SPARQL, anchored to one repo); only bringing a repo into the session (open by cap)
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* changes — the anchored query already resolves a same-session repo directly.
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*/
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import { docCreate, sparqlUpdate, sparqlQuery } from "./docs";
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import { getStoreRegistryDeps, getCaps, getCurrentUser } from "./polyfill";
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import { getCaps, getCurrentUser, getStoreRegistryDeps } from "./polyfill";
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import { assertNuri } from "./sparql";
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import type { Nuri } from "./types";
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@@ -44,11 +52,11 @@ import type { Nuri } from "./types";
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void docCreate;
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void sparqlUpdate;
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/** One subject read from the union, with its properties (predicate → values). */
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/** One subject read from a doc, with its properties (predicate → values). */
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export interface UnionSubject {
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/** The subject IRI (`?s`). */
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/** The subject IRI (`?s`) — in the polyfill, the doc's own NURI. */
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subject: string;
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/** The graph the subject was read from (`?g` — the repo graph name). */
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/** The graph (doc NURI) the subject was read from. */
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graph: string;
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/** predicate IRI → the list of object values (literals or IRIs) for it. */
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props: Record<string, string[]>;
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@@ -72,93 +80,92 @@ async function sessionId(): Promise<string> {
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}
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/**
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* Touch ONE doc with a cheap anchored `ASK`, tolerant per-doc.
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* Read ONE doc with an ANCHORED default-graph query, tolerant per-doc.
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*
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* VERIFIED (T03.k, see docs/nextgraph-current-state.md § *A repo is only queryable
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* once OPENED/synced*): the current JS SDK exposes **no primitive that SYNCS an
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* unknown repo**. An anchored `sparql_query` resolves via `resolve_target_for_sparql`
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* → `self.repos.get(id).ok_or(RepoNotFound)` — it never PULLS an absent repo (and
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* neither do `doc_subscribe` nor `orm_start_graph`; the real loader
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* `load_repo_from_read_cap` is `pub(crate)`, unexposed). So this `ASK` cannot sync:
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* on a repo already in `self.repos` (every doc `doc_create`d this session — which,
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* in the mono-wallet polyfill, is ALL of them) it is a no-op that confirms presence;
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* on a genuinely-absent repo it throws `RepoNotFound` HERE, in isolation, and the
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* doc is skipped — never aborting the listing of the others (the ORM fan-out's
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* failure mode). Returns whether the touch succeeded.
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* The anchor (`doc` NURI) restricts the query to that repo's graph as the DEFAULT
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* graph (`resolve_target_for_sparql(Repo)` → `Some(repo_graph_name)`); a body with
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* NO `GRAPH` wrapper reads exactly that default graph → ONLY this doc's triples.
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* This is O(1) in the doc's own size and INDEPENDENT of the rest of the (possibly
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* bloated / shared) session store — it never iterates other graphs.
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*
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* All same-session repos (every doc `doc_create`d this session — in the mono-wallet
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* polyfill, ALL of them) are already in `self.repos`, so the anchored query resolves
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* the repo directly with no separate open. A genuinely-absent repo throws
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* `RepoNotFound` HERE, in isolation, and the doc is skipped — never aborting the
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* others (unlike the ORM fan-out). Returns the doc's rows, or `[]` on failure.
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*
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* At the real multi-store migration this becomes a real sync: opening a per-user
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* store repo by cap is a native broker fetch (`verifier.rs:1423` `OpenRepo` TODO).
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*/
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async function openDoc(sid: string, doc: Nuri): Promise<boolean> {
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async function readDoc(
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sid: string,
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doc: Nuri,
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): Promise<Array<Record<string, { value: string } | undefined>>> {
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try {
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const nuri = assertNuri(doc);
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await sparqlQuery(sid, "ASK { ?s ?p ?o }", undefined, nuri);
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return true;
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// Anchored to `nuri` → default graph = this repo. NO `GRAPH ?g` wrapper, so
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// the anchor's one-repo restriction applies (an explicit `GRAPH ?g` body would
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// iterate all named graphs regardless of the anchor — see docs § probe step 4).
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const res = await sparqlQuery(
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sid,
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"SELECT ?s ?p ?o WHERE { ?s ?p ?o }",
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undefined,
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nuri,
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);
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return bindings(res);
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} catch (error) {
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console.error("[read-model] open failed for", doc, error);
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return false;
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console.error("[read-model] read failed for", doc, error);
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return [];
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}
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}
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/**
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* OPEN/SYNC a set of docs, then read the LOCAL UNION with ONE anchorless
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* `sparql_query`, grouped per subject. `docs` are the NURIs to bring into the
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* union (the consumer resolves them by need — index for public, own scope docs
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* for mine). Docs that fail to open are skipped (see {@link openDoc}).
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* Read a BOUNDED, by-need set of docs — each with its OWN anchored query — and
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* return the triples grouped per subject. `docs` are the NURIs to read (the
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* consumer resolves them by need — index for public, own scope docs for mine).
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* Docs that fail are skipped (see {@link readDoc}); a failing doc never aborts the
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* batch.
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*
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* The union query is anchorless (`anchor` undefined → LOCAL UNION) with an
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* explicit `GRAPH ?g { ?s ?p ?o }` body, so it spans every opened graph and
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* attributes each row to its source graph.
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* NEVER an anchorless union-scan over all graphs (which is O(wallet size) and wrong
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* on a shared / bloated wallet). Each doc is read with an anchored default-graph
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* query, O(1) per doc, independent of wallet size — a non-empty wallet no longer
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* matters. Reads run in parallel via `Promise.all`.
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*/
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export async function readUnion(docs: Nuri[]): Promise<UnionSubject[]> {
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const sid = await sessionId();
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const unique = [...new Set(docs.filter(Boolean))];
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// 1. OPEN/SYNC — per-doc, tolerant (a bad doc never aborts the whole list).
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await Promise.all(unique.map((d) => openDoc(sid, d)));
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if (unique.length === 0) return [];
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// 2. UNION QUERY — ONE anchorless query over the local union. The union spans
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// ALL opened graphs (including the shim/inbox internals), so constrain it to
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// the requested subjects with a VALUES block. In the polyfill each entity's
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// subject IRI IS its own document NURI (writeEntity uses the doc NURI as the
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// subject), so the requested doc NURIs ARE the subjects to read — precise and
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// independent of the repo_graph_name overlay suffix on ?g.
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const values = unique.map((d) => `<${assertNuri(d)}>`).join(" ");
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const query =
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`SELECT ?g ?s ?p ?o WHERE { GRAPH ?g { ?s ?p ?o . VALUES ?s { ${values} } } }`;
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let rows: Array<Record<string, { value: string } | undefined>> = [];
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try {
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rows = bindings(await sparqlQuery(sid, query, undefined, undefined));
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} catch (error) {
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console.error("[read-model] union query failed:", error);
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return [];
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}
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// One anchored query per doc, in parallel, tolerant (a bad doc yields []).
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const perDoc = await Promise.all(
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unique.map(async (d) => ({ doc: assertNuri(d), rows: await readDoc(sid, d) })),
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);
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// Cap gate (defence-in-depth). The union spans every OPENED graph, so a subject
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// whose DOCUMENT is under a read policy the current user may not satisfy must be
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// dropped — isolation holds BY CONSTRUCTION (the app only resolves docs it is
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// entitled to) AND BY FILTER here. Generic: the lib owns the cap registry; a doc
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// under no policy (`!governsRead`) flows through unchanged. In this polyfill each
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// subject IRI IS its own document NURI, so the cap key is the subject.
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// Cap gate (defence-in-depth). A doc whose read policy the current user may not
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// satisfy is dropped. Isolation holds BY CONSTRUCTION (the app only resolves docs
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// it is entitled to) AND BY FILTER here. Generic: the lib owns the cap registry;
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// a doc under no policy (`!governsRead`) flows through unchanged. In this polyfill
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// each subject IRI IS its own document NURI, so the cap key is the doc NURI.
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const caps = getCaps();
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const user = getCurrentUser();
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const denied = (doc: string): boolean => caps.governsRead(doc) && !caps.canRead(doc, user);
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const bySubject = new Map<string, UnionSubject>();
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for (const row of rows) {
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const s = row.s?.value;
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const p = row.p?.value;
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const o = row.o?.value;
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const g = row.g?.value ?? "";
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if (!s || !p || o === undefined) continue;
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if (denied(s)) continue;
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let entry = bySubject.get(s);
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if (!entry) {
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entry = { subject: s, graph: g, props: {} };
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bySubject.set(s, entry);
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for (const { doc, rows } of perDoc) {
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if (caps.governsRead(doc) && !caps.canRead(doc, user)) continue;
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// Anchored to `doc`, so every row belongs to `doc`; the subject IS the doc NURI
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// (writeEntity invariant). Pin subject/graph to the doc NURI (the anchor), which
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// is stable regardless of the repo_graph_name overlay suffix the store carries.
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for (const row of rows) {
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const p = row.p?.value;
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const o = row.o?.value;
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if (!p || o === undefined) continue;
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let entry = bySubject.get(doc);
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if (!entry) {
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entry = { subject: doc, graph: doc, props: {} };
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bySubject.set(doc, entry);
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}
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(entry.props[p] ??= []).push(o);
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}
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(entry.props[p] ??= []).push(o);
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}
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return [...bySubject.values()];
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}
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@@ -2,32 +2,28 @@ import { test, expect, mock } from "bun:test";
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import { readUnion } from "../src/read-model";
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import { configure, configureStoreRegistry } from "../src/polyfill";
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// A fake `ng` whose sparql_query answers the ANCHORLESS union query with the
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// triples of the requested subjects, and the anchored ASK (open step) with an
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// empty result. Each entity subject IRI IS its own document NURI (writeEntity
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// convention), so the fixture keys triples by the doc NURI.
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// A fake `ng` whose sparql_query answers the ANCHORED per-doc query (SELECT ?s ?p ?o
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// WHERE { ?s ?p ?o }, anchor = the doc NURI) with ONLY that doc's triples. There is
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// NO anchorless union scan: each doc is read independently by its own anchor. Each
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// entity subject IRI IS its own document NURI (writeEntity convention), so the
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// fixture keys triples by the doc NURI and returns them for the matching anchor.
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function fakeNgWith(triplesByDoc: Record<string, Array<[string, string]>>) {
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return {
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doc_create: mock(async () => "did:ng:o:new"),
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sparql_update: mock(async () => undefined),
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sparql_query: mock(async (_sid: string, query: string, _base: unknown, anchor: unknown) => {
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// The open step is `ASK { ?s ?p ?o }` with an anchor → return a truthy ASK.
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if (query.startsWith("ASK")) return { boolean: true };
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// The union query is anchorless (anchor undefined) with a VALUES ?s block.
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if (anchor !== undefined) return { results: { bindings: [] } };
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const bindings: Array<Record<string, { value: string }>> = [];
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for (const [doc, triples] of Object.entries(triplesByDoc)) {
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// Only surface docs whose NURI is named in the VALUES block.
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if (!query.includes(`<${doc}>`)) continue;
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for (const [p, o] of triples) {
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bindings.push({
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g: { value: `${doc}:graph` },
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s: { value: doc },
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p: { value: p },
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o: { value: o },
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});
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}
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sparql_query: mock(async (_sid: string, _query: string, _base: unknown, anchor: unknown) => {
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// Every read is ANCHORED to one doc NURI — never anchorless.
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if (anchor === undefined) {
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throw new Error("read-model must NEVER run an anchorless (union) query");
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}
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const doc = anchor as string;
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const triples = triplesByDoc[doc];
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if (!triples) return { results: { bindings: [] } };
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const bindings = triples.map(([p, o]) => ({
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s: { value: doc },
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p: { value: p },
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o: { value: o },
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}));
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return { results: { bindings } };
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}),
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};
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@@ -46,23 +42,26 @@ function inject(triplesByDoc: Record<string, Array<[string, string]>>) {
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const TYPE = "http://www.w3.org/1999/02/22-rdf-syntax-ns#type";
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const FP = "http://festipod.org/";
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test("readUnion opens each doc then runs ONE anchorless union query", async () => {
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test("readUnion reads each doc with its OWN anchored query (never anchorless)", async () => {
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const ng = inject({
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"did:ng:o:a": [[TYPE, `${FP}Event`], [`${FP}title`, "A"]],
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"did:ng:o:b": [[TYPE, `${FP}Event`], [`${FP}title`, "B"]],
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});
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const subjects = await readUnion(["did:ng:o:a", "did:ng:o:b"]);
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// Two per-doc ASK opens + one anchorless union query = 3 sparql_query calls.
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expect(ng.sparql_query).toHaveBeenCalledTimes(3);
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const anchorless = ng.sparql_query.mock.calls.filter(
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(c: unknown[]) => !String(c[1]).startsWith("ASK") && c[3] === undefined,
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// One anchored query per doc = 2 sparql_query calls, each anchored (c[3] set).
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expect(ng.sparql_query).toHaveBeenCalledTimes(2);
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const anchored = ng.sparql_query.mock.calls.filter((c: unknown[]) => c[3] !== undefined);
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expect(anchored.length).toBe(2);
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// The anchors are exactly the requested doc NURIs.
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expect(new Set(anchored.map((c: unknown[]) => c[3]))).toEqual(
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new Set(["did:ng:o:a", "did:ng:o:b"]),
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);
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expect(anchorless.length).toBe(1);
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expect(subjects.length).toBe(2);
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const a = subjects.find((s) => s.subject === "did:ng:o:a")!;
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expect(a.props[`${FP}title`]).toEqual(["A"]);
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expect(a.graph).toBe("did:ng:o:a");
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});
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test("readUnion groups predicates per subject", async () => {
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@@ -86,12 +85,12 @@ test("readUnion returns [] for an empty doc set (no query)", async () => {
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expect(ng.sparql_query).toHaveBeenCalledTimes(0);
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});
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test("a doc that fails to open is skipped, not aborting the union", async () => {
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test("a doc that fails to read is skipped, not aborting the batch", async () => {
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const ng = fakeNgWith({ "did:ng:o:ok": [[TYPE, `${FP}Event`], [`${FP}title`, "ok"]] });
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// Make the OPEN (ASK) throw for the bad doc only.
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const orig = ng.sparql_query;
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// Make the anchored read throw for the bad doc only.
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ng.sparql_query = mock(async (sid: string, query: string, base: unknown, anchor: unknown) => {
|
||||
if (query.startsWith("ASK") && anchor === "did:ng:o:bad") throw new Error("RepoNotFound");
|
||||
if (anchor === "did:ng:o:bad") throw new Error("RepoNotFound");
|
||||
return orig(sid, query, base, anchor);
|
||||
}) as any;
|
||||
configure({ ng: ng as any, useShape: (() => {}) as any });
|
||||
@@ -101,6 +100,6 @@ test("a doc that fails to open is skipped, not aborting the union", async () =>
|
||||
});
|
||||
|
||||
const subjects = await readUnion(["did:ng:o:ok", "did:ng:o:bad"]);
|
||||
// The bad doc opened-failed but the good one still lists.
|
||||
// The bad doc failed its read but the good one still lists.
|
||||
expect(subjects.map((s) => s.subject)).toEqual(["did:ng:o:ok"]);
|
||||
});
|
||||
|
||||
Reference in New Issue
Block a user