// Real PG14 (legacy replica) + PG17 (new) proof for the bulk batch read-through adapter. // We NEVER mock the DB: each closure runs a real `$queryRaw` against the passed container // (crossing the actual PG14↔PG17 boundary) then filters an in-memory seeded set by id — // mirroring readThrough.server.test.ts's `realRead`. The only injected fakes are throwing // spies asserting a store was NEVER touched. import { heteroPostgresTest } from "@internal/testcontainers"; import { describe, expect, vi } from "vitest"; import type { PrismaReplicaClient } from "~/db.server"; import { hydrateRunsAcrossSeam } from "./BulkActionV2.batchReadThrough.server"; vi.setConfig({ testTimeout: 60_000 }); // 25-char cuid body → LEGACY residency. 26-char v1 body (version "1" at index 25) → NEW residency. const LEGACY_RUN_ID = "run_" + "a".repeat(25); const NEW_RUN_ID = "run_" + "b".repeat(24) + "01"; type Row = { id: string }; // Real read against the given container, then return rows for the ids present in `present`. async function realReadFiltered( client: PrismaReplicaClient, ids: string[], present: Set ): Promise { await client.$queryRaw<{ marker: number }[]>`SELECT 1 AS marker`; return ids.filter((id) => present.has(id)).map((id) => ({ id })); } describe("hydrateRunsAcrossSeam (PG14 legacy replica + PG17 new)", () => { heteroPostgresTest( "(a) mixed page: NEW id from new, LEGACY id from legacy replica; new id never hits legacy", async ({ prisma14, prisma17 }) => { const onNew = new Set([NEW_RUN_ID]); const onLegacy = new Set([LEGACY_RUN_ID]); const readLegacyReplica = vi.fn( async (replica: PrismaReplicaClient, ids: string[]): Promise => { if (ids.includes(NEW_RUN_ID)) { throw new Error("legacy replica must never be probed for a NEW-residency id"); } return realReadFiltered(replica, ids, onLegacy); } ); const rows = await hydrateRunsAcrossSeam({ runIds: [NEW_RUN_ID, LEGACY_RUN_ID], readNew: (client, ids) => realReadFiltered(client, ids, onNew), readLegacyReplica, deps: { splitEnabled: true, newClient: prisma17 as unknown as PrismaReplicaClient, legacyReplica: prisma14 as unknown as PrismaReplicaClient, }, }); const ids = rows.map((r) => r.id).sort(); expect(ids).toEqual([LEGACY_RUN_ID, NEW_RUN_ID].sort()); expect(readLegacyReplica).toHaveBeenCalledTimes(1); // legacy was only probed for the legacy id expect(readLegacyReplica.mock.calls[0][1]).toEqual([LEGACY_RUN_ID]); } ); heteroPostgresTest( "(c) passthrough: splitEnabled false reads only the single client; legacy never touched", async ({ prisma14, prisma17 }) => { const onNew = new Set([NEW_RUN_ID, LEGACY_RUN_ID]); const throwingLegacy = vi.fn(async (): Promise => { throw new Error("readLegacyReplica must never run in single-DB mode"); }); const readNew = vi.fn((client: PrismaReplicaClient, ids: string[]) => realReadFiltered(client, ids, onNew) ); const rows = await hydrateRunsAcrossSeam({ runIds: [NEW_RUN_ID, LEGACY_RUN_ID], readNew, readLegacyReplica: throwingLegacy, deps: { splitEnabled: false, // single collapsed store (use prisma17 here as the "new"/primary analog) newClient: prisma17 as unknown as PrismaReplicaClient, legacyReplica: prisma14 as unknown as PrismaReplicaClient, }, }); const ids = rows.map((r) => r.id).sort(); expect(ids).toEqual([LEGACY_RUN_ID, NEW_RUN_ID].sort()); expect(readNew).toHaveBeenCalledTimes(1); expect(throwingLegacy).not.toHaveBeenCalled(); } ); });