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denoland-deno/core/examples/http_bench_bin_ops.js

145 lines
3.3 KiB
JavaScript

// 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)),
);
const promiseMap = new Map();
let nextPromiseId = 1;
function assert(cond) {
if (!cond) {
throw Error("assert");
}
}
function createResolvable() {
let resolve;
let reject;
const promise = new Promise((res, rej) => {
resolve = res;
reject = rej;
});
promise.resolve = resolve;
promise.reject = reject;
return promise;
}
const scratch32 = new Int32Array(3);
const scratchBytes = new Uint8Array(
scratch32.buffer,
scratch32.byteOffset,
scratch32.byteLength,
);
assert(scratchBytes.byteLength === 3 * 4);
function send(promiseId, opId, rid, ...zeroCopy) {
scratch32[0] = promiseId;
scratch32[1] = rid;
scratch32[2] = -1;
return Deno.core.dispatch(opId, scratchBytes, ...zeroCopy);
}
/** Returns Promise<number> */
function sendAsync(opId, rid, ...zeroCopy) {
const promiseId = nextPromiseId++;
const p = createResolvable();
const buf = send(promiseId, opId, rid, ...zeroCopy);
if (buf) {
const record = recordFromBuf(buf);
// Sync result.
p.resolve(record.result);
} else {
// Async result.
promiseMap.set(promiseId, p);
}
return p;
}
/** Returns i32 number */
function sendSync(opId, rid) {
const buf = send(0, opId, rid);
const record = recordFromBuf(buf);
return record[2];
}
function recordFromBuf(buf) {
assert(buf.byteLength === 3 * 4);
return new Int32Array(buf.buffer, buf.byteOffset, buf.byteLength / 4);
}
function handleAsyncMsgFromRust(buf) {
const record = recordFromBuf(buf);
const p = promiseMap.get(record[0]);
promiseMap.delete(record[0]);
p.resolve(record[2]);
}
/** Listens on 0.0.0.0:4500, returns rid. */
function listen() {
return sendSync(ops["listen"], -1);
}
/** Accepts a connection, returns rid. */
function accept(rid) {
return sendAsync(ops["accept"], rid);
}
/**
* Reads a packet from the rid, presumably an http request. data is ignored.
* Returns bytes read.
*/
function read(rid, data) {
return sendAsync(ops["read"], rid, data);
}
/** Writes a fixed HTTP response to the socket rid. Returns bytes written. */
function write(rid, data) {
return sendAsync(ops["write"], rid, data);
}
function close(rid) {
return sendSync(ops["close"], rid);
}
async function serve(rid) {
while (true) {
const nread = await read(rid, requestBuf);
if (nread <= 0) {
break;
}
const nwritten = await write(rid, responseBuf);
if (nwritten < 0) {
break;
}
}
close(rid);
}
let ops;
async function main() {
ops = Deno.core.ops();
for (const opName in ops) {
Deno.core.setAsyncHandler(ops[opName], handleAsyncMsgFromRust);
}
const listenerRid = listen();
Deno.core.print(`http_bench_bin_ops listening on http://127.0.0.1:4544/\n`);
for (;;) {
const rid = await accept(listenerRid);
// Deno.core.print(`accepted ${rid}`);
if (rid < 0) {
Deno.core.print(`accept error ${rid}`);
return;
}
serve(rid);
}
}
main();