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Version: 11.x

Response Caching

The below examples uses Vercel's edge caching to serve data to your users as fast as possible.

info

Always be careful with caching - especially if you handle personal information.

 
Since batching is enabled by default, it's recommended to set your cache headers in the responseMeta function and make sure that there are not any concurrent calls that may include personal data - or to omit cache headers completely if there is an auth header or cookie.

 
You can also use a splitLink to split your public requests and those that should be private and uncached.

App Caching

If you turn on SSR in your app, you might discover that your app loads slowly on, for instance, Vercel, but you can actually statically render your whole app without using SSG; read this Twitter thread for more insights.

Example code

utils/trpc.tsx
tsx
import { httpBatchLink } from '@trpc/client';
import { createTRPCNext } from '@trpc/next';
import type { AppRouter } from '../server/routers/_app';
export const trpc = createTRPCNext<AppRouter>({
config(opts) {
if (typeof window !== 'undefined') {
return {
links: [
httpBatchLink({
url: '/api/trpc',
}),
],
};
}
const url = process.env.VERCEL_URL
? `https://${process.env.VERCEL_URL}/api/trpc`
: 'http://localhost:3000/api/trpc';
return {
links: {
http: httpBatchLink({
url,
}),
},
};
},
ssr: true,
responseMeta(opts) {
const { clientErrors } = opts;
if (clientErrors.length) {
// propagate http first error from API calls
return {
status: clientErrors[0].data?.httpStatus ?? 500,
};
}
// cache request for 1 day + revalidate once every second
const ONE_DAY_IN_SECONDS = 60 * 60 * 24;
return {
headers: new Headers([
[
'cache-control',
`s-maxage=1, stale-while-revalidate=${ONE_DAY_IN_SECONDS}`,
],
]),
};
},
});
utils/trpc.tsx
tsx
import { httpBatchLink } from '@trpc/client';
import { createTRPCNext } from '@trpc/next';
import type { AppRouter } from '../server/routers/_app';
export const trpc = createTRPCNext<AppRouter>({
config(opts) {
if (typeof window !== 'undefined') {
return {
links: [
httpBatchLink({
url: '/api/trpc',
}),
],
};
}
const url = process.env.VERCEL_URL
? `https://${process.env.VERCEL_URL}/api/trpc`
: 'http://localhost:3000/api/trpc';
return {
links: {
http: httpBatchLink({
url,
}),
},
};
},
ssr: true,
responseMeta(opts) {
const { clientErrors } = opts;
if (clientErrors.length) {
// propagate http first error from API calls
return {
status: clientErrors[0].data?.httpStatus ?? 500,
};
}
// cache request for 1 day + revalidate once every second
const ONE_DAY_IN_SECONDS = 60 * 60 * 24;
return {
headers: new Headers([
[
'cache-control',
`s-maxage=1, stale-while-revalidate=${ONE_DAY_IN_SECONDS}`,
],
]),
};
},
});

API Response caching

Since all queries are normal HTTP GETs, we can use normal HTTP headers to cache responses, make the responses snappy, give your database a rest, and easily scale your API to gazillions of users.

Using responseMeta to cache responses

Assuming you're deploying your API somewhere that can handle stale-while-revalidate cache headers like Vercel.

server.ts
tsx
import { initTRPC } from '@trpc/server';
import * as trpcNext from '@trpc/server/adapters/next';
export const createContext = async ({
req,
res,
}: trpcNext.CreateNextContextOptions) => {
return {
req,
res,
prisma,
};
};
type Context = Awaited<ReturnType<typeof createContext>>;
export const t = initTRPC.context<Context>().create();
const waitFor = async (ms: number) =>
new Promise((resolve) => setTimeout(resolve, ms));
export const appRouter = t.router({
public: t.router({
slowQueryCached: t.procedure.query(async (opts) => {
await waitFor(5000); // wait for 5s
return {
lastUpdated: new Date().toJSON(),
};
}),
}),
});
// Exporting type _type_ AppRouter only exposes types that can be used for inference
// https://www.typescriptlang.org/docs/handbook/release-notes/typescript-3-8.html#type-only-imports-and-export
export type AppRouter = typeof appRouter;
// export API handler
export default trpcNext.createNextApiHandler({
router: appRouter,
createContext,
responseMeta(opts) {
const { ctx, paths, errors, type } = opts;
// assuming you have all your public routes with the keyword `public` in them
const allPublic = paths && paths.every((path) => path.includes('public'));
// checking that no procedures errored
const allOk = errors.length === 0;
// checking we're doing a query request
const isQuery = type === 'query';
if (ctx?.res && allPublic && allOk && isQuery) {
// cache request for 1 day + revalidate once every second
const ONE_DAY_IN_SECONDS = 60 * 60 * 24;
return {
headers: new Headers([
[
'cache-control',
`s-maxage=1, stale-while-revalidate=${ONE_DAY_IN_SECONDS}`,
],
]),
};
}
return {};
},
});
server.ts
tsx
import { initTRPC } from '@trpc/server';
import * as trpcNext from '@trpc/server/adapters/next';
export const createContext = async ({
req,
res,
}: trpcNext.CreateNextContextOptions) => {
return {
req,
res,
prisma,
};
};
type Context = Awaited<ReturnType<typeof createContext>>;
export const t = initTRPC.context<Context>().create();
const waitFor = async (ms: number) =>
new Promise((resolve) => setTimeout(resolve, ms));
export const appRouter = t.router({
public: t.router({
slowQueryCached: t.procedure.query(async (opts) => {
await waitFor(5000); // wait for 5s
return {
lastUpdated: new Date().toJSON(),
};
}),
}),
});
// Exporting type _type_ AppRouter only exposes types that can be used for inference
// https://www.typescriptlang.org/docs/handbook/release-notes/typescript-3-8.html#type-only-imports-and-export
export type AppRouter = typeof appRouter;
// export API handler
export default trpcNext.createNextApiHandler({
router: appRouter,
createContext,
responseMeta(opts) {
const { ctx, paths, errors, type } = opts;
// assuming you have all your public routes with the keyword `public` in them
const allPublic = paths && paths.every((path) => path.includes('public'));
// checking that no procedures errored
const allOk = errors.length === 0;
// checking we're doing a query request
const isQuery = type === 'query';
if (ctx?.res && allPublic && allOk && isQuery) {
// cache request for 1 day + revalidate once every second
const ONE_DAY_IN_SECONDS = 60 * 60 * 24;
return {
headers: new Headers([
[
'cache-control',
`s-maxage=1, stale-while-revalidate=${ONE_DAY_IN_SECONDS}`,
],
]),
};
}
return {};
},
});