scholarr/frontend/src/stores/run_status.test.ts

379 lines
12 KiB
TypeScript

import { afterEach, beforeEach, describe, expect, it, vi } from "vitest";
import { createPinia, setActivePinia } from "pinia";
import { ApiRequestError } from "@/lib/api/errors";
import { createDefaultSafetyState } from "@/features/safety";
vi.mock("@/features/runs", () => ({
listRuns: vi.fn(),
triggerManualRun: vi.fn(),
cancelRun: vi.fn(),
}));
import { cancelRun, listRuns, triggerManualRun } from "@/features/runs";
import {
RUN_STATUS_POLL_INTERVAL_MS,
RUN_STATUS_STARTING_PHASE_MS,
useRunStatusStore,
} from "@/stores/run_status";
function buildRun(overrides: Partial<{
id: number;
trigger_type: string;
status: string;
start_dt: string;
end_dt: string | null;
scholar_count: number;
new_publication_count: number;
failed_count: number;
partial_count: number;
}> = {}) {
return {
id: 1,
trigger_type: "manual",
status: "success",
start_dt: "2026-02-19T12:00:00Z",
end_dt: "2026-02-19T12:01:00Z",
scholar_count: 3,
new_publication_count: 2,
failed_count: 0,
partial_count: 0,
...overrides,
};
}
function buildRunsPayload(runs: ReturnType<typeof buildRun>[]) {
return {
runs,
safety_state: createDefaultSafetyState(),
};
}
class FakeEventSource {
static instances: FakeEventSource[] = [];
public readonly url: string;
public closed = false;
private listeners = new Map<string, Array<(event: { data: string }) => void>>();
constructor(url: string) {
this.url = url;
FakeEventSource.instances.push(this);
}
addEventListener(eventType: string, callback: (event: { data: string }) => void): void {
const existing = this.listeners.get(eventType) ?? [];
this.listeners.set(eventType, [...existing, callback]);
}
emit(eventType: string, payload: unknown): void {
const callbacks = this.listeners.get(eventType) ?? [];
for (const callback of callbacks) {
callback({ data: JSON.stringify(payload) });
}
}
close(): void {
this.closed = true;
}
}
describe("run status store", () => {
const mockedListRuns = vi.mocked(listRuns);
const mockedTriggerManualRun = vi.mocked(triggerManualRun);
const mockedCancelRun = vi.mocked(cancelRun);
beforeEach(() => {
setActivePinia(createPinia());
mockedListRuns.mockReset();
mockedTriggerManualRun.mockReset();
mockedCancelRun.mockReset();
vi.useRealTimers();
});
afterEach(() => {
useRunStatusStore().reset();
vi.useRealTimers();
});
it("bootstraps from latest run and exposes idle start state", async () => {
mockedListRuns.mockResolvedValueOnce(buildRunsPayload([buildRun({ id: 11, status: "success" })]));
const store = useRunStatusStore();
await store.bootstrap();
expect(mockedListRuns).toHaveBeenCalledWith({ limit: 1 });
expect(store.latestRun?.id).toBe(11);
expect(store.canStart).toBe(true);
expect(store.isRunActive).toBe(false);
expect(store.isPolling).toBe(false);
});
it("starts manual checks and marks active state", async () => {
mockedTriggerManualRun.mockResolvedValueOnce({
run_id: 25,
status: "running",
scholar_count: 0,
succeeded_count: 0,
failed_count: 0,
partial_count: 0,
new_publication_count: 0,
reused_existing_run: false,
idempotency_key: "abc",
safety_state: createDefaultSafetyState(),
});
mockedListRuns.mockResolvedValueOnce(
buildRunsPayload([buildRun({ id: 25, status: "running", end_dt: null })]),
);
const store = useRunStatusStore();
const result = await store.startManualCheck();
expect(result).toEqual({
kind: "started",
runId: 25,
reusedExistingRun: false,
});
expect(store.latestRun?.id).toBe(25);
expect(store.isRunActive).toBe(true);
expect(store.isPolling).toBe(true);
});
it("normalizes run_in_progress responses into already_running state", async () => {
mockedTriggerManualRun.mockRejectedValueOnce(
new ApiRequestError({
status: 409,
code: "run_in_progress",
message: "A run is already in progress for this account.",
details: { run_id: 42 },
requestId: "req_123",
}),
);
mockedListRuns.mockResolvedValueOnce(
buildRunsPayload([buildRun({ id: 42, status: "running", end_dt: null })]),
);
const store = useRunStatusStore();
const result = await store.startManualCheck();
expect(result).toEqual({
kind: "already_running",
runId: 42,
requestId: "req_123",
});
expect(store.latestRun?.id).toBe(42);
expect(store.isRunActive).toBe(true);
expect(store.lastErrorMessage).toBeNull();
});
it("polls while a run is active and stops when it completes", async () => {
vi.useFakeTimers();
mockedListRuns
.mockResolvedValueOnce(buildRunsPayload([buildRun({ id: 90, status: "running", end_dt: null })]))
.mockResolvedValueOnce(buildRunsPayload([buildRun({ id: 90, status: "success" })]));
const store = useRunStatusStore();
await store.syncLatest();
expect(store.isPolling).toBe(true);
await vi.advanceTimersByTimeAsync(RUN_STATUS_POLL_INTERVAL_MS + 10);
expect(mockedListRuns).toHaveBeenCalledTimes(2);
expect(store.latestRun?.status).toBe("success");
expect(store.isPolling).toBe(false);
expect(store.isRunActive).toBe(false);
});
it("stores cooldown safety state when manual start is blocked by policy cooldown", async () => {
mockedTriggerManualRun.mockRejectedValueOnce(
new ApiRequestError({
status: 429,
code: "scrape_cooldown_active",
message: "Scrape safety cooldown is active; run start is temporarily blocked.",
details: {
safety_state: {
cooldown_active: true,
cooldown_reason: "blocked_failure_threshold_exceeded",
cooldown_reason_label: "Blocked responses exceeded safety threshold",
cooldown_until: "2026-02-19T12:30:00Z",
cooldown_remaining_seconds: 600,
recommended_action: "Wait for cooldown to expire.",
counters: {
consecutive_blocked_runs: 1,
consecutive_network_runs: 0,
cooldown_entry_count: 1,
blocked_start_count: 2,
last_blocked_failure_count: 1,
last_network_failure_count: 0,
last_evaluated_run_id: 10,
},
},
},
}),
);
const store = useRunStatusStore();
const result = await store.startManualCheck();
expect(result.kind).toBe("error");
expect(store.safetyState.cooldown_active).toBe(true);
expect(store.canStart).toBe(false);
});
it("switches from starting to in-progress when trigger request remains open", async () => {
vi.useFakeTimers();
mockedTriggerManualRun.mockImplementation(
() =>
new Promise((resolve) => {
setTimeout(() => {
resolve({
run_id: 77,
status: "running",
scholar_count: 0,
succeeded_count: 0,
failed_count: 0,
partial_count: 0,
new_publication_count: 0,
reused_existing_run: false,
idempotency_key: "x",
safety_state: createDefaultSafetyState(),
});
}, RUN_STATUS_STARTING_PHASE_MS + 500);
}),
);
mockedListRuns.mockResolvedValueOnce(buildRunsPayload([]));
const store = useRunStatusStore();
const startPromise = store.startManualCheck();
expect(store.isSubmitting).toBe(true);
expect(store.isLikelyRunning).toBe(false);
await vi.advanceTimersByTimeAsync(RUN_STATUS_STARTING_PHASE_MS + 20);
expect(store.isLikelyRunning).toBe(true);
await vi.advanceTimersByTimeAsync(520);
await startPromise;
expect(store.isRunActive).toBe(true);
});
it("cancels an active check and transitions to canceled state", async () => {
mockedCancelRun.mockResolvedValueOnce({
run: buildRun({ id: 50, status: "canceled" }),
summary: {
succeeded_count: 0,
failed_count: 0,
partial_count: 0,
failed_state_counts: {},
failed_reason_counts: {},
scrape_failure_counts: {},
retry_counts: {
retries_scheduled_count: 0,
scholars_with_retries_count: 0,
retry_exhausted_count: 0,
},
alert_thresholds: {},
alert_flags: {},
},
scholar_results: [],
safety_state: createDefaultSafetyState(),
} as any);
const store = useRunStatusStore();
store.setLatestRun(buildRun({ id: 50, status: "running", end_dt: null }));
expect(store.isRunActive).toBe(true);
const result = await store.cancelActiveCheck();
expect(result.kind).toBe("success");
expect(store.latestRun?.status).toBe("canceled");
expect(store.isRunActive).toBe(false);
expect(store.isPolling).toBe(false);
});
it("cancels a resolving run using server status as source of truth", async () => {
mockedCancelRun.mockResolvedValueOnce({
run: buildRun({ id: 72, status: "failed" }),
summary: {
succeeded_count: 0,
failed_count: 1,
partial_count: 0,
failed_state_counts: {},
failed_reason_counts: {},
scrape_failure_counts: {},
retry_counts: {
retries_scheduled_count: 0,
scholars_with_retries_count: 0,
retry_exhausted_count: 0,
},
alert_thresholds: {},
alert_flags: {},
},
scholar_results: [],
safety_state: createDefaultSafetyState(),
} as any);
const store = useRunStatusStore();
store.setLatestRun(buildRun({ id: 72, status: "resolving", end_dt: null }));
const result = await store.cancelActiveCheck();
expect(result.kind).toBe("success");
expect(store.latestRun?.status).toBe("failed");
expect(store.isRunActive).toBe(false);
});
it("reconciles poll responses without regressing publication counters", async () => {
mockedListRuns.mockResolvedValueOnce(
buildRunsPayload([buildRun({ id: 99, status: "running", new_publication_count: 1, end_dt: null })]),
);
const store = useRunStatusStore();
await store.syncLatest();
store.latestRun = buildRun({ id: 99, status: "running", new_publication_count: 5, end_dt: null });
mockedListRuns.mockResolvedValueOnce(
buildRunsPayload([buildRun({ id: 99, status: "running", new_publication_count: 3, end_dt: null })]),
);
await store.syncLatest();
expect(store.latestRun?.new_publication_count).toBe(5);
});
it("applies identifier_updated SSE events to live publications", () => {
const previousEventSource = (globalThis as any).EventSource;
FakeEventSource.instances = [];
(globalThis as any).EventSource = FakeEventSource as any;
try {
const store = useRunStatusStore();
store.setLatestRun(buildRun({ id: 314, status: "running", end_dt: null }));
const stream = FakeEventSource.instances[0];
expect(stream).toBeDefined();
stream.emit("publication_discovered", {
publication_id: 22,
scholar_profile_id: 7,
scholar_label: "Ada Lovelace",
title: "Optimization Notes",
pub_url: null,
first_seen_at: "2026-02-26T10:00:00Z",
});
expect(store.livePublications).toHaveLength(1);
expect(store.livePublications[0].display_identifier).toBeNull();
stream.emit("identifier_updated", {
publication_id: 22,
display_identifier: {
kind: "doi",
value: "10.1000/xyz",
label: "DOI: 10.1000/xyz",
url: "https://doi.org/10.1000/xyz",
confidence_score: 0.95,
},
});
expect(store.livePublications[0].display_identifier?.kind).toBe("doi");
expect(store.livePublications[0].display_identifier?.value).toBe("10.1000/xyz");
} finally {
(globalThis as any).EventSource = previousEventSource;
}
});
});