linear-reference-architecture
Production-grade Linear integration architecture patterns. Use when designing system architecture, planning integrations, or reviewing architectural decisions. Trigger with phrases like "linear architecture", "linear system design", "linear integration patterns", "linear best practices architecture".
Install
mkdir -p .claude/skills/linear-reference-architecture && curl -L -o skill.zip "https://mcp.directory/api/skills/download/8645" && unzip -o skill.zip -d .claude/skills/linear-reference-architecture && rm skill.zipInstalls to .claude/skills/linear-reference-architecture
About this skill
Linear Reference Architecture
Overview
Production-grade architectural patterns for Linear integrations. Choose the right pattern based on team size, complexity, and real-time requirements.
Architecture Decision Matrix
| Pattern | Best For | Complexity | Rate Budget | Example |
|---|---|---|---|---|
| Simple | Single app, small team | Low | < 500 req/hr | Internal dashboard |
| Service-Oriented | Multiple apps, shared state | Medium | 500-2,000 req/hr | Platform with Linear sync |
| Event-Driven | Real-time needs, many consumers | High | < 500 req/hr + webhooks | Multi-service notification system |
| CQRS | Audit trails, complex queries | Very High | Minimal API calls | Compliance-grade tracking |
Architecture 1: Simple Integration
Direct SDK calls from your application. Best for scripts, internal tools, and prototypes.
// src/linear.ts — single module, shared client
import { LinearClient } from "@linear/sdk";
const client = new LinearClient({ apiKey: process.env.LINEAR_API_KEY! });
// Direct SDK calls from any part of your app
export async function getOpenIssues(teamKey: string) {
return client.issues({
first: 50,
filter: {
team: { key: { eq: teamKey } },
state: { type: { nin: ["completed", "canceled"] } },
},
orderBy: "priority",
});
}
export async function createBugReport(teamId: string, title: string, description: string) {
const labels = await client.issueLabels({ filter: { name: { eq: "Bug" } } });
return client.createIssue({
teamId,
title,
description,
priority: 2,
labelIds: labels.nodes.length ? [labels.nodes[0].id] : [],
});
}
Architecture 2: Service-Oriented with Gateway
Centralized Linear access through a gateway service with caching and rate limiting.
// src/linear-gateway.ts
import { LinearClient } from "@linear/sdk";
class LinearGateway {
private client: LinearClient;
private cache = new Map<string, { data: any; expiresAt: number }>();
private requestQueue: Array<{ fn: () => Promise<any>; resolve: Function; reject: Function }> = [];
private processing = false;
constructor(apiKey: string) {
this.client = new LinearClient({ apiKey });
}
// Cached reads
async getTeams() {
return this.cachedQuery("teams", () => this.client.teams().then(r => r.nodes), 600);
}
async getStates(teamId: string) {
return this.cachedQuery(`states:${teamId}`, async () => {
const team = await this.client.team(teamId);
return (await team.states()).nodes;
}, 1800);
}
// Rate-limited writes
async createIssue(input: any) {
return this.enqueue(() => this.client.createIssue(input));
}
async updateIssue(id: string, input: any) {
return this.enqueue(() => this.client.updateIssue(id, input));
}
// Custom queries through the gateway
async rawQuery(query: string, variables?: any) {
return this.enqueue(() => this.client.client.rawRequest(query, variables));
}
// Cache invalidation (called from webhook handler)
invalidate(pattern: string) {
for (const key of this.cache.keys()) {
if (key.startsWith(pattern)) this.cache.delete(key);
}
}
private async cachedQuery<T>(key: string, fn: () => Promise<T>, ttlSec: number): Promise<T> {
const cached = this.cache.get(key);
if (cached && Date.now() < cached.expiresAt) return cached.data;
const data = await this.enqueue(fn);
this.cache.set(key, { data, expiresAt: Date.now() + ttlSec * 1000 });
return data;
}
private async enqueue<T>(fn: () => Promise<T>): Promise<T> {
return new Promise((resolve, reject) => {
this.requestQueue.push({ fn, resolve, reject });
if (!this.processing) this.processQueue();
});
}
private async processQueue() {
this.processing = true;
while (this.requestQueue.length > 0) {
const { fn, resolve, reject } = this.requestQueue.shift()!;
try { resolve(await fn()); } catch (e) { reject(e); }
if (this.requestQueue.length > 0) {
await new Promise(r => setTimeout(r, 100)); // 10 req/sec max
}
}
this.processing = false;
}
}
export const gateway = new LinearGateway(process.env.LINEAR_API_KEY!);
Architecture 3: Event-Driven
Webhook-centric architecture. Minimal API calls, real-time processing.
// src/event-processor.ts
import express from "express";
import crypto from "crypto";
import { EventEmitter } from "events";
// Internal event bus
const bus = new EventEmitter();
// Webhook ingester
const app = express();
app.post("/webhooks/linear", express.raw({ type: "*/*" }), (req, res) => {
const sig = req.headers["linear-signature"] as string;
const body = req.body.toString();
const expected = crypto.createHmac("sha256", process.env.LINEAR_WEBHOOK_SECRET!)
.update(body).digest("hex");
if (!crypto.timingSafeEqual(Buffer.from(sig), Buffer.from(expected))) {
return res.status(401).end();
}
const event = JSON.parse(body);
res.json({ ok: true });
// Emit to internal consumers
bus.emit(`${event.type}.${event.action}`, event);
bus.emit(event.type, event);
bus.emit("*", event);
});
// Consumer: Slack notifications
bus.on("Issue.update", async (event) => {
if (event.updatedFrom?.stateId && event.data.state?.type === "completed") {
await notifySlack(`Done: ${event.data.identifier} ${event.data.title}`);
}
});
// Consumer: Database sync
bus.on("Issue", async (event) => {
if (event.action === "create") await db.issues.insert(event.data);
if (event.action === "update") await db.issues.update(event.data.id, event.data);
if (event.action === "remove") await db.issues.softDelete(event.data.id);
});
// Consumer: Cache invalidation
bus.on("*", (event) => {
gateway.invalidate(event.type.toLowerCase());
});
Architecture 4: CQRS with Local State
Separate read and write paths. Full local state for complex queries, API for writes.
// Write side: mutations go through Linear API
async function createIssue(input: any) {
const result = await gateway.createIssue(input);
// Local state updated via webhook, not here
return result;
}
// Read side: queries against local database (no API calls)
async function getSprintVelocity(teamKey: string, sprints: number) {
return db.query(`
SELECT c.name, SUM(i.estimate) as velocity
FROM cycles c
JOIN issues i ON i.cycle_id = c.id AND i.state_type = 'completed'
WHERE c.team_key = ? AND c.completed_at IS NOT NULL
ORDER BY c.completed_at DESC
LIMIT ?
`, [teamKey, sprints]);
}
// Sync: webhook events keep local state fresh
// Full sync: daily consistency check (see linear-data-handling)
Project Structure
src/
linear/
gateway.ts # Rate-limited, cached API access
webhook-handler.ts # Signature verification + routing
event-bus.ts # Internal event distribution
cache.ts # TTL cache with invalidation
services/
issue-service.ts # Business logic
sync-service.ts # Data synchronization
config/
linear.ts # Environment config + validation
Error Handling
| Error | Cause | Solution |
|---|---|---|
| Rate limit exceeded | Too many direct API calls | Route all calls through gateway |
| Stale cache | TTL too long, missed webhook | Webhook invalidation + periodic full sync |
| Event loss | Webhook delivery failure | Idempotent handlers + consistency checks |
| Schema drift | SDK version mismatch | Pin version, test upgrades in staging |
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