109 lines
4.2 KiB
TypeScript
109 lines
4.2 KiB
TypeScript
/**
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* Batch adapter over the per-id `readThroughRun` (see
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* `~/v3/runOpsMigration/readThrough.server.ts`). A bulk action processes a PAGE of
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* member run ids at once, so instead of N per-id round trips this reproduces the
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* per-id read-through ordering as SET reads:
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*
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* 1. single-DB passthrough (splitEnabled === false): ONE read against the collapsed
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* store, no residency classification, no legacy probe.
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* 2. split on: classify each id's residency via `ownerEngine`, read NEW for every id
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* that could be on new (residency NEW *and* legacy-candidates — read-through is
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* new-FIRST for legacy too), then probe the LEGACY READ REPLICA ONLY for the
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* legacy-candidates the new read missed.
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*
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* Like the per-id layer this NEVER touches a legacy primary/writer — there is no such
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* handle. An id is read from new OR legacy, never both: legacy is only probed for ids
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* new missed, so the returned set needs no dedupe.
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*/
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import type { PrismaReplicaClient } from "~/db.server";
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import {
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runOpsLegacyReplica as defaultLegacyReplica,
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runOpsNewReplica as defaultNewClient,
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} from "~/db.server";
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import { ownerEngine, UnclassifiableRunId } from "@trigger.dev/core/v3/isomorphic";
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export type SeamReadDeps = {
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/**
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* Resolved boot constant. REQUIRED here — the caller resolves it once per
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* request via `isSplitEnabled()`; this adapter never awaits it itself.
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*/
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splitEnabled: boolean;
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newClient?: PrismaReplicaClient;
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legacyReplica?: PrismaReplicaClient;
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logger?: { warn: (m: string, meta?: unknown) => void };
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};
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type HydrateRunsAcrossSeamInput<T> = {
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runIds: string[];
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readNew: (client: PrismaReplicaClient, ids: string[]) => Promise<T[]>;
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readLegacyReplica: (replica: PrismaReplicaClient, ids: string[]) => Promise<T[]>;
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deps: SeamReadDeps;
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};
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/** Every row shape we hydrate carries an `id` (CANCEL select includes it; REPLAY is a full row). */
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function getId(row: unknown): string {
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return (row as { id: string }).id;
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}
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export async function hydrateRunsAcrossSeam<T>(input: HydrateRunsAcrossSeamInput<T>): Promise<T[]> {
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const { runIds, deps } = input;
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if (runIds.length === 0) {
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return [];
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}
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const newClient = deps.newClient ?? defaultNewClient;
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// Passthrough: one plain read against the single collapsed store. No residency
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// classification, no legacy probe, no second connection. When the caller passes its
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// own `_replica` as `newClient`, this is byte-identical to the pre-migration single-DB read.
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if (deps.splitEnabled === false) {
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return input.readNew(newClient, runIds);
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}
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// Split is on. Classify residency; unclassifiable → LEGACY (probe rather than drop).
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const newIds: string[] = [];
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const legacyCandidateIds: string[] = [];
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for (const runId of runIds) {
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let residency: "LEGACY" | "NEW";
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try {
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residency = ownerEngine(runId);
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} catch (e) {
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if (e instanceof UnclassifiableRunId) {
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deps.logger?.warn("hydrateRunsAcrossSeam: UnclassifiableRunId, treating as LEGACY", {
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runId,
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valueLength: e.valueLength,
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});
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residency = "LEGACY";
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} else {
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throw e;
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}
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}
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if (residency === "NEW") {
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newIds.push(runId);
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} else {
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legacyCandidateIds.push(runId);
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}
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}
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// Read NEW for everything that could be on new — NEW-residency ids AND legacy-candidates
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// (read-through is new-FIRST for legacy too) — in one read.
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const legacyReplica = deps.legacyReplica ?? defaultLegacyReplica;
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const newRows = await input.readNew(newClient, [...newIds, ...legacyCandidateIds]);
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const foundOnNew = new Set(newRows.map(getId));
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// Legacy-candidates the new read missed are probed on the legacy read replica.
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const legacyToProbe = legacyCandidateIds.filter((id) => !foundOnNew.has(id));
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// Legacy READ REPLICA only — never a legacy writer/primary (no such handle exists).
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// A member absent from both DBs is simply not hydrated (matching today's `findMany`,
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// where a missing id yields no row).
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let legacyRows: T[] = [];
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if (legacyToProbe.length > 0) {
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legacyRows = await input.readLegacyReplica(legacyReplica, legacyToProbe);
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}
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// Order within the page is irrelevant (downstream pMap does not depend on it).
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return [...newRows, ...legacyRows];
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}
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