Stack Templates
Templates for creating @outfitter/* components.
Component Types
| Type | Package | Template |
|------|---------|----------|
| Handler | @outfitter/contracts | handler |
| Handler Test | @outfitter/testing | handler-test |
| CLI Command | @outfitter/cli | cli-command |
| MCP Tool | @outfitter/mcp | mcp-tool |
| Daemon | @outfitter/daemon | daemon-service |
Handler
Transport-agnostic business logic returning Result<T, E>:
import {
Result,
ValidationError,
NotFoundError,
createValidator,
type Handler,
} from "@outfitter/contracts";
import { z } from "zod";
// 1. Input schema
const InputSchema = z.object({
id: z.string().min(1),
});
type Input = z.infer<typeof InputSchema>;
// 2. Output type
interface Output {
id: string;
name: string;
}
// 3. Validator
const validateInput = createValidator(InputSchema);
// 4. Handler
export const myHandler: Handler<unknown, Output, ValidationError | NotFoundError> = async (
rawInput,
ctx
) => {
const inputResult = validateInput(rawInput);
if (inputResult.isErr()) return inputResult;
const input = inputResult.value;
ctx.logger.debug("Processing", { id: input.id });
const resource = await fetchResource(input.id);
if (!resource) {
return Result.err(new NotFoundError("resource", input.id));
}
return Result.ok(resource);
};
Handler Test
Test handlers directly without transport layer:
import { describe, test, expect } from "bun:test";
import { createContext } from "@outfitter/contracts";
import { myHandler } from "../handlers/my-handler.js";
describe("myHandler", () => {
test("returns success for valid input", async () => {
const ctx = createContext({});
const result = await myHandler({ id: "valid-id" }, ctx);
expect(result.isOk()).toBe(true);
expect(result.value).toMatchObject({ id: "valid-id" });
});
test("returns NotFoundError for missing resource", async () => {
const ctx = createContext({});
const result = await myHandler({ id: "missing" }, ctx);
expect(result.isErr()).toBe(true);
expect(result.error._tag).toBe("NotFoundError");
expect(result.error.resourceId).toBe("missing");
});
test("returns ValidationError for invalid input", async () => {
const ctx = createContext({});
const result = await myHandler({ id: "" }, ctx);
expect(result.isErr()).toBe(true);
expect(result.error._tag).toBe("ValidationError");
});
});
CLI Command
Commander.js command calling a handler:
import { command, output, exitWithError } from "@outfitter/cli";
import { createContext } from "@outfitter/contracts";
import { myHandler } from "../handlers/my-handler.js";
export const myCommand = command("my-command")
.description("What this command does")
.argument("<id>", "Resource ID")
.option("-l, --limit <n>", "Limit results", parseInt)
.action(async ({ args, flags }) => {
const ctx = createContext({});
const result = await myHandler({ id: args.id, limit: flags.limit }, ctx);
if (result.isErr()) {
exitWithError(result.error);
}
await output(result.value);
})
.build();
Register in CLI:
import { createCLI } from "@outfitter/cli";
import { myCommand } from "./commands/my-command.js";
const cli = createCLI({ name: "myapp", version: "1.0.0" });
cli.program.addCommand(myCommand);
cli.program.parse();
MCP Tool
Use defineTool() for type-safe tool definitions with automatic schema inference:
import { defineTool } from "@outfitter/mcp";
import { Result, ValidationError } from "@outfitter/contracts";
import { z } from "zod";
const InputSchema = z.object({
query: z.string().describe("Search query"),
limit: z.number().int().positive().default(10).describe("Max results"),
});
interface Output {
results: Array<{ id: string; title: string }>;
total: number;
}
export const myTool = defineTool({
name: "my_tool",
description: "Tool description for AI agent",
inputSchema: InputSchema,
handler: async (input): Promise<Result<Output, ValidationError>> => {
// input is automatically typed as z.infer<typeof InputSchema>
const results = await search(input.query, input.limit);
return Result.ok({ results, total: results.length });
},
});
Register in server:
import { createMcpServer } from "@outfitter/mcp";
import { myTool } from "./tools/my-tool.js";
const server = createMcpServer({ name: "my-server", version: "0.1.0" });
server.registerTool(myTool);
server.start();
Daemon Service
Background service with health checks and IPC:
import {
createDaemon,
createIpcServer,
createHealthChecker,
getSocketPath,
getLockPath,
} from "@outfitter/daemon";
import { createLogger, createConsoleSink } from "@outfitter/logging";
import { Result } from "@outfitter/contracts";
const logger = createLogger({
name: "my-daemon",
level: "info",
sinks: [createConsoleSink()],
redaction: { enabled: true },
});
const daemon = createDaemon({
name: "my-daemon",
pidFile: getLockPath("my-daemon"),
logger,
shutdownTimeout: 10000,
});
const healthChecker = createHealthChecker([
{
name: "memory",
check: async () => {
const used = process.memoryUsage().heapUsed / 1024 / 1024;
return used < 500
? Result.ok(undefined)
: Result.err(new Error(`High memory: ${used.toFixed(2)}MB`));
},
},
]);
const ipcServer = createIpcServer(getSocketPath("my-daemon"));
ipcServer.onMessage(async (msg) => {
const message = msg as { type: string };
switch (message.type) {
case "status": return { status: "ok", uptime: process.uptime() };
case "health": return await healthChecker.check();
default: return { error: "Unknown command" };
}
});
daemon.onShutdown(async () => {
logger.info("Shutting down...");
await ipcServer.close();
});
async function main() {
const startResult = await daemon.start();
if (startResult.isErr()) {
logger.error("Failed to start", { error: startResult.error });
process.exit(1);
}
await ipcServer.listen();
logger.info("Started", { socket: getSocketPath("my-daemon") });
}
main();
Best Practices
- Handler First - Write handler before adapter (CLI/MCP/API)
- Validate Early - Use
createValidatorat handler entry - Type Errors - List all error types in handler signature
- Context Propagation - Pass context through all handler calls
- Test Handlers - Test handlers directly without transport layer