Files
2026-07-13 13:32:57 +08:00

143 lines
4.5 KiB
TypeScript

import { ownerEngine } from "@trigger.dev/core/v3/isomorphic";
import { env } from "~/env.server";
import { logger } from "~/services/logger.server";
import { marqs } from "~/v3/marqs/index.server";
import { commonWorker } from "../commonWorker.server";
import { BaseService } from "./baseService.server";
export class ExecuteTasksWaitingForDeployService extends BaseService {
public async call(backgroundWorkerId: string) {
// Kill-switch for the legacy V1 WAITING_FOR_DEPLOY drain. Set to "1" to
// neuter any jobs already enqueued (V2 has its own PENDING_VERSION path).
if (env.LEGACY_RUN_ENGINE_WAITING_FOR_DEPLOY_DISABLED === "1") {
return;
}
const backgroundWorker = await this._prisma.backgroundWorker.findFirst({
where: {
id: backgroundWorkerId,
},
include: {
runtimeEnvironment: {
include: {
project: true,
organization: true,
},
},
tasks: {
select: {
slug: true,
},
},
},
});
if (!backgroundWorker) {
logger.error("Background worker not found", { id: backgroundWorkerId });
return;
}
const maxCount = env.LEGACY_RUN_ENGINE_WAITING_FOR_DEPLOY_BATCH_SIZE;
const runsWaitingForDeploy = await this.runStore.findRuns(
{
where: {
runtimeEnvironmentId: backgroundWorker.runtimeEnvironmentId,
projectId: backgroundWorker.projectId,
status: "WAITING_FOR_DEPLOY",
taskIdentifier: {
in: backgroundWorker.tasks.map((task) => task.slug),
},
},
orderBy: {
createdAt: "asc",
},
select: {
id: true,
status: true,
taskIdentifier: true,
concurrencyKey: true,
queue: true,
updatedAt: true,
createdAt: true,
},
take: maxCount + 1,
},
this._replica
);
if (!runsWaitingForDeploy.length) {
return;
}
// Defense-in-depth: the open-predicate findRuns fan-out can select runs from
// either DB, but the status flip below is a single control-plane updateMany. A
// run-ops id (NEW-resident) run can only reach WAITING_FOR_DEPLOY via a misconfiguration
// (it is a V1/cuid-only status — V2 uses PENDING_VERSION). Surface it loudly rather
// than silently strand the run, and only mutate the LEGACY-resident runs the
// control-plane client can actually reach.
const newResidentRuns = runsWaitingForDeploy.filter((run) => ownerEngine(run.id) === "NEW");
if (newResidentRuns.length) {
logger.error(
"WAITING_FOR_DEPLOY selected NEW-resident runs; skipping their control-plane status flip",
{ runIds: newResidentRuns.map((run) => run.id) }
);
}
const legacyRuns = runsWaitingForDeploy.filter((run) => !newResidentRuns.includes(run));
const pendingRuns = await this._prisma.taskRun.updateMany({
where: {
id: {
in: legacyRuns.map((run) => run.id),
},
},
data: {
status: "PENDING",
},
});
if (pendingRuns.count) {
logger.debug("Task runs waiting for deploy are now ready for execution", {
tasks: legacyRuns.map((run) => run.id),
total: pendingRuns.count,
});
}
// Only enqueue the runs whose status was actually flipped (the legacy set) — never
// marqs-enqueue a NEW-resident run we couldn't transition out of WAITING_FOR_DEPLOY.
for (const run of legacyRuns) {
await marqs?.enqueueMessage(
backgroundWorker.runtimeEnvironment,
run.queue,
run.id,
{
type: "EXECUTE",
taskIdentifier: run.taskIdentifier,
projectId: backgroundWorker.runtimeEnvironment.projectId,
environmentId: backgroundWorker.runtimeEnvironment.id,
environmentType: backgroundWorker.runtimeEnvironment.type,
},
run.concurrencyKey ?? undefined
);
}
if (runsWaitingForDeploy.length > maxCount) {
await ExecuteTasksWaitingForDeployService.enqueue(
backgroundWorkerId,
new Date(Date.now() + env.LEGACY_RUN_ENGINE_WAITING_FOR_DEPLOY_BATCH_STAGGER_MS)
);
}
}
static async enqueue(backgroundWorkerId: string, runAt?: Date) {
return await commonWorker.enqueue({
id: `v3.executeTasksWaitingForDeploy:${backgroundWorkerId}`,
job: "v3.executeTasksWaitingForDeploy",
payload: {
backgroundWorkerId,
},
availableAt: runAt,
});
}
}