denoland-deno/core/examples/http_bench_json_ops.js

// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
// This is not a real HTTP server. We read blindly one time into 'requestBuf',
// then write this fixed 'responseBuf'. The point of this benchmark is to
// exercise the event loop in a simple yet semi-realistic way.
const requestBuf = new Uint8Array(64 * 1024);
const responseBuf = new Uint8Array(
  "HTTP/1.1 200 OK\r\nContent-Length: 12\r\n\r\nHello World\n"
    .split("")
    .map((c) => c.charCodeAt(0)),
);

/** Listens on 0.0.0.0:4500, returns rid. */
function listen() {
  return Deno.core.opSync("listen");
}

/** Accepts a connection, returns rid. */
function accept(serverRid) {
  return Deno.core.opAsync("accept", serverRid);
}

/**
 * Reads a packet from the rid, presumably an http request. data is ignored.
 * Returns bytes read.
 */
function read(rid, data) {
  return Deno.core.opAsync("read", rid, data);
}

/** Writes a fixed HTTP response to the socket rid. Returns bytes written. */
function write(rid, data) {
  return Deno.core.opAsync("write", rid, data);
}

function close(rid) {
  Deno.core.opSync("close", rid);
}

async function serve(rid) {
  try {
    while (true) {
      await read(rid, requestBuf);
      await write(rid, responseBuf);
    }
  } catch (e) {
    if (
      !e.message.includes("Broken pipe") &&
      !e.message.includes("Connection reset by peer")
    ) {
      throw e;
    }
  }
  close(rid);
}

async function main() {
  const listenerRid = listen();
  Deno.core.print(`http_bench_ops listening on http://127.0.0.1:4544/\n`);

  while (true) {
    const rid = await accept(listenerRid);
    serve(rid);
  }
}

main();
update copyright to 2021 (#9081) 2021-01-10 21:59:07 -05:00			`// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.`
deno_core (#1827) A new low-level crate with focus on speed. This doesn't yet hook into the existing code base. 2019-02-26 17:36:05 -05:00			`// This is not a real HTTP server. We read blindly one time into 'requestBuf',`
			`// then write this fixed 'responseBuf'. The point of this benchmark is to`
			`// exercise the event loop in a simple yet semi-realistic way.`
			`const requestBuf = new Uint8Array(64 * 1024);`
			`const responseBuf = new Uint8Array(`
			`"HTTP/1.1 200 OK\r\nContent-Length: 12\r\n\r\nHello World\n"`
			`.split("")`
Use dprint for internal formatting (#6682) 2020-07-14 15:24:17 -04:00			`.map((c) => c.charCodeAt(0)),`
deno_core (#1827) A new low-level crate with focus on speed. This doesn't yet hook into the existing code base. 2019-02-26 17:36:05 -05:00			`);`

			`/** Listens on 0.0.0.0:4500, returns rid. */`
			`function listen() {`
refactor(deno): remove concept of bin & json ops (#10145) 2021-04-12 15:55:05 -04:00			`return Deno.core.opSync("listen");`
deno_core (#1827) A new low-level crate with focus on speed. This doesn't yet hook into the existing code base. 2019-02-26 17:36:05 -05:00			`}`

			`/** Accepts a connection, returns rid. */`
refactor: new optimized op-layer using serde_v8 (#9843) - Improves op performance. - Handle op-metadata (errors, promise IDs) explicitly in the op-layer vs per op-encoding (aka: out-of-payload). - Remove shared queue & custom "asyncHandlers", all async values are returned in batches via js_recv_cb. - The op-layer should be thought of as simple function calls with little indirection or translation besides the conceptually straightforward serde_v8 bijections. - Preserve concepts of json/bin/min as semantic groups of their inputs/outputs instead of their op-encoding strategy, preserving these groups will also facilitate partial transitions over to v8 Fast API for the "min" and "bin" groups 2021-03-31 10:37:38 -04:00			`function accept(serverRid) {`
refactor(deno): remove concept of bin & json ops (#10145) 2021-04-12 15:55:05 -04:00			`return Deno.core.opAsync("accept", serverRid);`
deno_core (#1827) A new low-level crate with focus on speed. This doesn't yet hook into the existing code base. 2019-02-26 17:36:05 -05:00			`}`

			`/**`
			`* Reads a packet from the rid, presumably an http request. data is ignored.`
			`* Returns bytes read.`
			`*/`
refactor: new optimized op-layer using serde_v8 (#9843) - Improves op performance. - Handle op-metadata (errors, promise IDs) explicitly in the op-layer vs per op-encoding (aka: out-of-payload). - Remove shared queue & custom "asyncHandlers", all async values are returned in batches via js_recv_cb. - The op-layer should be thought of as simple function calls with little indirection or translation besides the conceptually straightforward serde_v8 bijections. - Preserve concepts of json/bin/min as semantic groups of their inputs/outputs instead of their op-encoding strategy, preserving these groups will also facilitate partial transitions over to v8 Fast API for the "min" and "bin" groups 2021-03-31 10:37:38 -04:00			`function read(rid, data) {`
refactor(deno): remove concept of bin & json ops (#10145) 2021-04-12 15:55:05 -04:00			`return Deno.core.opAsync("read", rid, data);`
deno_core (#1827) A new low-level crate with focus on speed. This doesn't yet hook into the existing code base. 2019-02-26 17:36:05 -05:00			`}`

			`/** Writes a fixed HTTP response to the socket rid. Returns bytes written. */`
refactor: new optimized op-layer using serde_v8 (#9843) - Improves op performance. - Handle op-metadata (errors, promise IDs) explicitly in the op-layer vs per op-encoding (aka: out-of-payload). - Remove shared queue & custom "asyncHandlers", all async values are returned in batches via js_recv_cb. - The op-layer should be thought of as simple function calls with little indirection or translation besides the conceptually straightforward serde_v8 bijections. - Preserve concepts of json/bin/min as semantic groups of their inputs/outputs instead of their op-encoding strategy, preserving these groups will also facilitate partial transitions over to v8 Fast API for the "min" and "bin" groups 2021-03-31 10:37:38 -04:00			`function write(rid, data) {`
refactor(deno): remove concept of bin & json ops (#10145) 2021-04-12 15:55:05 -04:00			`return Deno.core.opAsync("write", rid, data);`
deno_core (#1827) A new low-level crate with focus on speed. This doesn't yet hook into the existing code base. 2019-02-26 17:36:05 -05:00			`}`

			`function close(rid) {`
refactor(deno): remove concept of bin & json ops (#10145) 2021-04-12 15:55:05 -04:00			`Deno.core.opSync("close", rid);`
deno_core (#1827) A new low-level crate with focus on speed. This doesn't yet hook into the existing code base. 2019-02-26 17:36:05 -05:00			`}`

			`async function serve(rid) {`
fix(core): error handling in examples (#9867) 2021-04-08 12:04:02 -04:00			`try {`
			`while (true) {`
			`await read(rid, requestBuf);`
			`await write(rid, responseBuf);`
deno_core (#1827) A new low-level crate with focus on speed. This doesn't yet hook into the existing code base. 2019-02-26 17:36:05 -05:00			`}`
fix(core): error handling in examples (#9867) 2021-04-08 12:04:02 -04:00			`} catch (e) {`
			`if (`
			`!e.message.includes("Broken pipe") &&`
			`!e.message.includes("Connection reset by peer")`
			`) {`
			`throw e;`
deno_core (#1827) A new low-level crate with focus on speed. This doesn't yet hook into the existing code base. 2019-02-26 17:36:05 -05:00			`}`
			`}`
			`close(rid);`
			`}`

			`async function main() {`
Migrate from tslint to eslint for linting (#1905) 2019-03-09 12:30:38 -05:00			`const listenerRid = listen();`
refactor(deno): remove concept of bin & json ops (#10145) 2021-04-12 15:55:05 -04:00			Deno.core.print(`http_bench_ops listening on http://127.0.0.1:4544/\n`);
Convert the remaining http_bench ops to json ops (#7143) 2020-08-21 05:47:57 -04:00
fix(core): error handling in examples (#9867) 2021-04-08 12:04:02 -04:00			`while (true) {`
Migrate from tslint to eslint for linting (#1905) 2019-03-09 12:30:38 -05:00			`const rid = await accept(listenerRid);`
deno_core (#1827) A new low-level crate with focus on speed. This doesn't yet hook into the existing code base. 2019-02-26 17:36:05 -05:00			`serve(rid);`
			`}`
			`}`

			`main();`