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triggerdotdev--trigger.dev/apps/webapp/app/v3/services/computeTemplateCreation.server.ts
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2026-07-13 13:32:57 +08:00

364 lines
13 KiB
TypeScript

import { ComputeClient, stripImageDigest } from "@internal/compute";
import type { TemplateCreateResultEntry } from "@internal/compute";
import type { MachinePresetName } from "@trigger.dev/core/v3";
import { machinePresetFromName } from "~/v3/machinePresets.server";
import { env } from "~/env.server";
import { logger } from "~/services/logger.server";
import type { PrismaClientOrTransaction } from "~/db.server";
import type { AuthenticatedEnvironment } from "~/services/apiAuth.server";
import { ServiceValidationError } from "./baseService.server";
import { FailDeploymentService } from "./failDeployment.server";
import { resolveComputeAccess } from "../regionAccess.server";
import { isOrgMigrated } from "~/runEngine/concerns/computeMigration.server";
import { backingForQueue, workerRegionRegistry } from "~/v3/workerRegions.server";
import { globalFlagsRegistry } from "~/v3/globalFlagsRegistry.server";
import { getEntitlement } from "~/services/platform.v3.server";
import { startActiveSpan, attributesFromAuthenticatedEnv } from "~/v3/tracer.server";
type TemplateCreationMode = "required" | "shadow" | "skip";
// Why the mode was chosen — slices the compute.template.create span by path.
type TemplateModeReason =
| "no-client"
| "no-project"
| "microvm-native"
| "migrated"
| "compute-access"
| "rollout"
| "none";
type ResolvedTemplateMode = {
mode: TemplateCreationMode;
migrated: boolean;
reason: TemplateModeReason;
};
type ResolvedPreset = {
name: MachinePresetName;
cpu: number;
memory_gb: number;
};
export class ComputeTemplateCreationService {
private client: ComputeClient | undefined;
private presets: ResolvedPreset[];
private requiredPresets: Set<MachinePresetName>;
constructor() {
if (env.COMPUTE_GATEWAY_URL) {
this.client = new ComputeClient({
gatewayUrl: env.COMPUTE_GATEWAY_URL,
authToken: env.COMPUTE_GATEWAY_AUTH_TOKEN,
timeoutMs: 5 * 60 * 1000, // 5 minutes
});
}
this.presets = env.COMPUTE_TEMPLATE_MACHINE_PRESETS.map((name) => {
const machine = machinePresetFromName(name);
return { name, cpu: machine.cpu, memory_gb: machine.memory };
});
this.requiredPresets = new Set(env.COMPUTE_TEMPLATE_MACHINE_PRESETS_REQUIRED);
}
/**
* Handle template creation for a deployment. Call this before setting DEPLOYED.
*
* - Required mode: creates template synchronously, fails deployment on error
* - Shadow mode: fires background template creation (returns immediately)
* - Skip: no-op
*
* Throws ServiceValidationError if required mode fails (caller should stop finalize).
*/
async handleDeployTemplate(options: {
projectId: string;
imageReference: string;
deploymentFriendlyId: string;
authenticatedEnv: AuthenticatedEnvironment;
prisma: PrismaClientOrTransaction;
writer?: WritableStreamDefaultWriter;
}): Promise<void> {
return startActiveSpan("compute.template.create", async (span) => {
const { mode, migrated, reason } = await this.resolveMode(options.projectId, options.prisma);
span.setAttributes({
...attributesFromAuthenticatedEnv(options.authenticatedEnv),
"compute.template.mode": mode,
"compute.template.migrated": migrated,
"compute.template.reason": reason,
"compute.template.deployment_id": options.deploymentFriendlyId,
"compute.template.presets_total": this.presets.length,
"compute.template.presets_required": this.requiredPresets.size,
});
if (mode === "skip") {
span.setAttribute("compute.template.result", "skipped");
return;
}
if (mode === "shadow") {
// Shadow is fire-and-forget (background build), so the span only records
// that it was dispatched — the build outcome lands server-side later.
span.setAttribute("compute.template.result", "shadow_dispatched");
this.createTemplate(options.imageReference, { background: true })
.then((outcome) => {
if (outcome.error) {
logger.error("Shadow template creation failed", {
id: options.deploymentFriendlyId,
imageReference: options.imageReference,
error: outcome.error,
});
}
})
.catch((error) => {
logger.error("Shadow template creation threw unexpectedly", {
id: options.deploymentFriendlyId,
imageReference: options.imageReference,
error: error instanceof Error ? error.message : String(error),
});
});
return;
}
// Required mode
if (options.writer) {
try {
await options.writer.write(
`event: log\ndata: ${JSON.stringify({ message: "Building compute template..." })}\n\n`
);
} catch {
// Stream may be closed if client disconnected - continue with template creation
}
}
logger.info("Creating compute template (required mode)", {
id: options.deploymentFriendlyId,
imageReference: options.imageReference,
presets: this.presets.map((p) => p.name),
requiredPresets: [...this.requiredPresets],
});
const outcome = await this.createTemplate(options.imageReference);
span.setAttribute("compute.template.presets_built", outcome.results.length);
const failureMessage = this.failureMessageForRequiredMode(
outcome,
options.deploymentFriendlyId,
options.imageReference
);
if (failureMessage) {
span.setAttributes({
"compute.template.result": "failed",
"compute.template.failure": failureMessage,
});
logger.error("Compute template creation failed", {
id: options.deploymentFriendlyId,
imageReference: options.imageReference,
error: failureMessage,
});
const failService = new FailDeploymentService();
await failService.call(options.authenticatedEnv, options.deploymentFriendlyId, {
error: {
name: "TemplateCreationFailed",
message: `Failed to create compute template: ${failureMessage}`,
},
});
throw new ServiceValidationError(`Compute template creation failed: ${failureMessage}`);
}
span.setAttribute("compute.template.result", "created");
logger.info("Compute template created", {
id: options.deploymentFriendlyId,
imageReference: options.imageReference,
results: outcome.results.length,
});
});
}
async resolveMode(
projectId: string,
prisma: PrismaClientOrTransaction
): Promise<ResolvedTemplateMode> {
if (!this.client) {
return { mode: "skip", migrated: false, reason: "no-client" };
}
const project = await prisma.project.findFirst({
where: { id: projectId },
select: {
defaultWorkerGroup: {
select: { workloadType: true, masterQueue: true },
},
organization: {
select: { id: true, featureFlags: true },
},
},
});
if (!project) {
return { mode: "skip", migrated: false, reason: "no-project" };
}
if (project.defaultWorkerGroup?.workloadType === "MICROVM") {
return { mode: "required", migrated: false, reason: "microvm-native" };
}
// Migrated orgs route runs to the compute backing even though their stored
// default is still the container region, so they need a compute template too.
// shadow mode: never fail a deploy over a backing the org didn't opt into.
// A cold registry read returns no backing, so this is simply skipped until loaded.
const defaultQueue = project.defaultWorkerGroup?.masterQueue;
if (defaultQueue && backingForQueue(defaultQueue, workerRegionRegistry.current() ?? [])) {
const decision = {
orgId: project.organization.id,
orgFeatureFlags: project.organization.featureFlags as Record<string, unknown> | null,
flags: globalFlagsRegistry.current(),
};
// Per-org override needs no plan; only the percentage path does. So skip the
// external entitlement lookup unless it could matter, and degrade gracefully
// if it throws - a shadow-template check must never fail a deploy.
let migrated = isOrgMigrated({ ...decision, planType: undefined });
if (!migrated && (decision.flags?.computeMigrationEnabled ?? false)) {
let planType: string | undefined;
try {
planType = (await getEntitlement(project.organization.id))?.plan?.type;
} catch (error) {
logger.warn("compute migration: entitlement lookup failed; skipping shadow template", {
organizationId: project.organization.id,
error: error instanceof Error ? error.message : String(error),
});
}
migrated = isOrgMigrated({ ...decision, planType });
}
if (migrated) {
// required => template built at deploy (deploy fails on error); off => shadow.
return {
mode: decision.flags?.computeMigrationRequireTemplate ? "required" : "shadow",
migrated: true,
reason: "migrated",
};
}
}
const hasComputeAccess = await resolveComputeAccess(prisma, project.organization.featureFlags);
if (hasComputeAccess) {
return { mode: "shadow", migrated: false, reason: "compute-access" };
}
const rolloutPct = Number(env.COMPUTE_TEMPLATE_SHADOW_ROLLOUT_PCT ?? "0");
if (rolloutPct > 0 && Math.random() * 100 < rolloutPct) {
return { mode: "shadow", migrated: false, reason: "rollout" };
}
return { mode: "skip", migrated: false, reason: "none" };
}
async createTemplate(
imageReference: string,
options?: { background?: boolean }
): Promise<CreateTemplateOutcome> {
if (!this.client) {
return { error: "Compute gateway not configured", results: [] };
}
try {
const machineConfigs = this.presets.map((p) => ({
cpu: p.cpu,
memory_gb: p.memory_gb,
}));
const response = await this.client.templates.create({
image: stripImageDigest(imageReference),
machine_configs: machineConfigs,
background: options?.background,
});
// Background mode (202 Accepted): no body to inspect.
if (options?.background || !response) {
return { results: [] };
}
return {
error: response.error,
results: response.results,
};
} catch (error) {
const message = error instanceof Error ? error.message : "Unknown error";
logger.error("Failed to create compute template", {
imageReference,
error: message,
});
return { error: message, results: [] };
}
}
// Returns a human-readable failure message if any required preset failed
// or the request itself failed. Optional preset failures are logged and
// do not contribute to the message. Returns undefined on success.
private failureMessageForRequiredMode(
outcome: CreateTemplateOutcome,
deploymentFriendlyId: string,
imageReference: string
): string | undefined {
if (this.presets.length === 0) {
return undefined;
}
const failures: string[] = [];
this.presets.forEach((preset) => {
const isRequired = this.requiredPresets.has(preset.name);
// Match results to presets by (cpu, memory_gb) content with a small
// epsilon to tolerate float round-trip noise (memory_gb passes through
// gb -> mb -> gb conversion in the compute layer).
const result = outcome.results.find(
(r) =>
Math.abs(r.machine_config.cpu - preset.cpu) < 1e-9 &&
Math.abs(r.machine_config.memory_gb - preset.memory_gb) < 1e-9
);
if (!result) {
if (isRequired) {
failures.push(`${preset.name}: not built`);
} else {
logger.warn("Optional compute template preset not built", {
id: deploymentFriendlyId,
imageReference,
preset: preset.name,
});
}
return;
}
if (result.error) {
if (isRequired) {
failures.push(`${preset.name}: ${result.error}`);
} else {
logger.warn("Optional compute template preset failed", {
id: deploymentFriendlyId,
imageReference,
preset: preset.name,
error: result.error,
});
}
}
});
// Surface request-level errors only when no per-preset failure attributed.
if (outcome.error && failures.length === 0) {
failures.push(outcome.error);
}
return failures.length > 0 ? failures.join("; ") : undefined;
}
}
type CreateTemplateOutcome = {
error?: string;
results: TemplateCreateResultEntry[];
};