import path from "node:path"; import { describe, expect, it } from "vitest"; import { createClaimableDedupe, createPersistentDedupe } from "./persistent-dedupe.js"; import { createPluginSdkTestHarness } from "./test-helpers.js"; const { createTempDir } = createPluginSdkTestHarness(); function createDedupe(root: string, overrides?: { ttlMs?: number }) { return createPersistentDedupe({ ttlMs: overrides?.ttlMs ?? 24 * 60 * 60 * 1000, memoryMaxSize: 100, fileMaxEntries: 1000, resolveFilePath: (namespace) => path.join(root, `${namespace}.json`), }); } describe("createPersistentDedupe", () => { it("deduplicates keys, persists across instances, warms up, and checks recent keys", async () => { const root = await createTempDir("openclaw-dedupe-"); const first = createDedupe(root); expect(await first.checkAndRecord("m1", { namespace: "a" })).toBe(true); expect(await first.checkAndRecord("m1", { namespace: "a" })).toBe(false); expect(await first.checkAndRecord("m2", { namespace: "a" })).toBe(true); const second = createDedupe(root); expect(await second.hasRecent("m1", { namespace: "a" })).toBe(true); expect(await second.hasRecent("missing", { namespace: "a" })).toBe(false); expect(await second.warmup("a")).toBe(2); expect(await second.checkAndRecord("m1", { namespace: "a" })).toBe(false); expect(await second.checkAndRecord("m2", { namespace: "a" })).toBe(false); expect(await second.checkAndRecord("m3", { namespace: "a" })).toBe(true); expect(await second.checkAndRecord("m1", { namespace: "b" })).toBe(true); const raceDedupe = createDedupe(root, { ttlMs: 10_000 }); const [raceFirst, raceSecond] = await Promise.all([ raceDedupe.checkAndRecord("race-key", { namespace: "feishu" }), raceDedupe.checkAndRecord("race-key", { namespace: "feishu" }), ]); expect(raceFirst).toBe(true); expect(raceSecond).toBe(false); }); it("falls back to memory-only behavior on disk errors", async () => { const dedupe = createPersistentDedupe({ ttlMs: 10_000, memoryMaxSize: 100, fileMaxEntries: 1000, resolveFilePath: () => path.join("/dev/null", "dedupe.json"), }); expect(await dedupe.checkAndRecord("memory-only", { namespace: "x" })).toBe(true); expect(await dedupe.checkAndRecord("memory-only", { namespace: "x" })).toBe(false); }); it("warms empty namespaces and skips expired disk entries", async () => { const root = await createTempDir("openclaw-dedupe-"); const emptyReader = createDedupe(root, { ttlMs: 10_000 }); expect(await emptyReader.warmup("nonexistent")).toBe(0); const writer = createDedupe(root, { ttlMs: 1000 }); const oldNow = Date.now() - 2000; expect(await writer.checkAndRecord("old-msg", { namespace: "acct", now: oldNow })).toBe(true); expect(await writer.checkAndRecord("new-msg", { namespace: "acct" })).toBe(true); const reader = createDedupe(root, { ttlMs: 1000 }); expect(await reader.warmup("acct")).toBe(1); expect(await reader.checkAndRecord("old-msg", { namespace: "acct" })).toBe(true); expect(await reader.checkAndRecord("new-msg", { namespace: "acct" })).toBe(false); }); }); describe("createClaimableDedupe", () => { it("mirrors in-flight duplicates, serializes races, and records on commit", async () => { const dedupe = createClaimableDedupe({ ttlMs: 10_000, memoryMaxSize: 100, }); await expect(dedupe.claim("line:evt-1")).resolves.toEqual({ kind: "claimed" }); const duplicate = await dedupe.claim("line:evt-1"); expect(duplicate.kind).toBe("inflight"); const commit = dedupe.commit("line:evt-1"); await expect(commit).resolves.toBe(true); if (duplicate.kind === "inflight") { await expect(duplicate.pending).resolves.toBe(true); } await expect(dedupe.claim("line:evt-1")).resolves.toEqual({ kind: "duplicate" }); const claims = await Promise.all([dedupe.claim("line:race-1"), dedupe.claim("line:race-1")]); expect(claims.filter((claim) => claim.kind === "claimed")).toHaveLength(1); expect(claims.filter((claim) => claim.kind === "inflight")).toHaveLength(1); const waitingClaim = claims.find((claim) => claim.kind === "inflight"); await expect(dedupe.commit("line:race-1")).resolves.toBe(true); if (waitingClaim?.kind === "inflight") { await expect(waitingClaim.pending).resolves.toBe(true); } await expect(dedupe.claim("line:race-1")).resolves.toEqual({ kind: "duplicate" }); }); it("rejects waiting duplicates when the active claim releases with an error", async () => { const dedupe = createClaimableDedupe({ ttlMs: 10_000, memoryMaxSize: 100, }); await expect(dedupe.claim("line:evt-2")).resolves.toEqual({ kind: "claimed" }); const duplicate = await dedupe.claim("line:evt-2"); expect(duplicate.kind).toBe("inflight"); const failure = new Error("transient failure"); dedupe.release("line:evt-2", { error: failure }); if (duplicate.kind === "inflight") { await expect(duplicate.pending).rejects.toThrow("transient failure"); } await expect(dedupe.claim("line:evt-2")).resolves.toEqual({ kind: "claimed" }); }); it("supports persistent-backed recent checks and warmup", async () => { const root = await createTempDir("openclaw-claimable-dedupe-"); const writer = createClaimableDedupe({ ttlMs: 10_000, memoryMaxSize: 100, fileMaxEntries: 1000, resolveFilePath: (namespace) => path.join(root, `${namespace}.json`), }); await expect(writer.claim("m1", { namespace: "acct" })).resolves.toEqual({ kind: "claimed" }); await expect(writer.commit("m1", { namespace: "acct" })).resolves.toBe(true); const reader = createClaimableDedupe({ ttlMs: 10_000, memoryMaxSize: 100, fileMaxEntries: 1000, resolveFilePath: (namespace) => path.join(root, `${namespace}.json`), }); expect(await reader.hasRecent("m1", { namespace: "acct" })).toBe(true); expect(await reader.warmup("acct")).toBe(1); await expect(reader.claim("m1", { namespace: "acct" })).resolves.toEqual({ kind: "duplicate", }); }); });