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denoland-deno/core/shared_queue.js

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// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
/*
SharedQueue Binary Layout
+-------------------------------+-------------------------------+
| NUM_RECORDS (32) |
+---------------------------------------------------------------+
| NUM_SHIFTED_OFF (32) |
+---------------------------------------------------------------+
| HEAD (32) |
+---------------------------------------------------------------+
| OFFSETS (32) |
+---------------------------------------------------------------+
| RECORD_ENDS (*MAX_RECORDS) ...
+---------------------------------------------------------------+
| RECORDS (*MAX_RECORDS) ...
+---------------------------------------------------------------+
*/
/* eslint-disable @typescript-eslint/no-use-before-define */
((window) => {
const GLOBAL_NAMESPACE = "Deno";
const CORE_NAMESPACE = "core";
const MAX_RECORDS = 100;
const INDEX_NUM_RECORDS = 0;
const INDEX_NUM_SHIFTED_OFF = 1;
const INDEX_HEAD = 2;
const INDEX_OFFSETS = 3;
const INDEX_RECORDS = INDEX_OFFSETS + 2 * MAX_RECORDS;
const HEAD_INIT = 4 * INDEX_RECORDS;
// Available on start due to bindings.
const Deno = window[GLOBAL_NAMESPACE];
const core = Deno[CORE_NAMESPACE];
// Warning: DO NOT use window.Deno after this point.
// It is possible that the Deno namespace has been deleted.
// Use the above local Deno and core variable instead.
let sharedBytes;
let shared32;
let asyncHandlers;
let initialized = false;
function maybeInit() {
if (!initialized) {
init();
initialized = true;
}
}
function init() {
const shared = Deno.core.shared;
assert(shared.byteLength > 0);
assert(sharedBytes == null);
assert(shared32 == null);
sharedBytes = new Uint8Array(shared);
shared32 = new Int32Array(shared);
asyncHandlers = [];
// Callers should not call Deno.core.recv, use setAsyncHandler.
Deno.core.recv(handleAsyncMsgFromRust);
}
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function ops() {
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// op id 0 is a special value to retrieve the map of registered ops.
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const opsMapBytes = Deno.core.send(0, new Uint8Array([]), null);
const opsMapJson = String.fromCharCode.apply(null, opsMapBytes);
return JSON.parse(opsMapJson);
}
function assert(cond) {
if (!cond) {
throw Error("assert");
}
}
function reset() {
maybeInit();
shared32[INDEX_NUM_RECORDS] = 0;
shared32[INDEX_NUM_SHIFTED_OFF] = 0;
shared32[INDEX_HEAD] = HEAD_INIT;
}
function head() {
maybeInit();
return shared32[INDEX_HEAD];
}
function numRecords() {
return shared32[INDEX_NUM_RECORDS];
}
function size() {
return shared32[INDEX_NUM_RECORDS] - shared32[INDEX_NUM_SHIFTED_OFF];
}
function setMeta(index, end, opId) {
shared32[INDEX_OFFSETS + 2 * index] = end;
shared32[INDEX_OFFSETS + 2 * index + 1] = opId;
}
function getMeta(index) {
if (index < numRecords()) {
const buf = shared32[INDEX_OFFSETS + 2 * index];
const opId = shared32[INDEX_OFFSETS + 2 * index + 1];
return [opId, buf];
} else {
return null;
}
}
function getOffset(index) {
if (index < numRecords()) {
if (index == 0) {
return HEAD_INIT;
} else {
const prevEnd = shared32[INDEX_OFFSETS + 2 * (index - 1)];
return (prevEnd + 3) & ~3;
}
} else {
return null;
}
}
function push(opId, buf) {
const off = head();
const end = off + buf.byteLength;
const alignedEnd = (end + 3) & ~3;
const index = numRecords();
if (alignedEnd > shared32.byteLength || index >= MAX_RECORDS) {
// console.log("shared_queue.js push fail");
return false;
}
setMeta(index, end, opId);
assert(alignedEnd % 4 === 0);
assert(end - off == buf.byteLength);
sharedBytes.set(buf, off);
shared32[INDEX_NUM_RECORDS] += 1;
shared32[INDEX_HEAD] = alignedEnd;
return true;
}
/// Returns null if empty.
function shift() {
const i = shared32[INDEX_NUM_SHIFTED_OFF];
if (size() == 0) {
assert(i == 0);
return null;
}
const off = getOffset(i);
const [opId, end] = getMeta(i);
if (size() > 1) {
shared32[INDEX_NUM_SHIFTED_OFF] += 1;
} else {
reset();
}
assert(off != null);
assert(end != null);
const buf = sharedBytes.subarray(off, end);
return [opId, buf];
}
function setAsyncHandler(opId, cb) {
maybeInit();
assert(opId != null);
asyncHandlers[opId] = cb;
}
function handleAsyncMsgFromRust(opId, buf) {
if (buf) {
// This is the overflow_response case of deno::Isolate::poll().
asyncHandlers[opId](buf);
} else {
while (true) {
const opIdBuf = shift();
if (opIdBuf == null) {
break;
}
assert(asyncHandlers[opIdBuf[0]] != null);
asyncHandlers[opIdBuf[0]](opIdBuf[1]);
}
}
}
function dispatch(opId, control, zeroCopy = null) {
return Deno.core.send(opId, control, zeroCopy);
}
const denoCore = {
setAsyncHandler,
dispatch,
sharedQueue: {
MAX_RECORDS,
head,
numRecords,
size,
push,
reset,
shift,
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},
ops,
};
assert(window[GLOBAL_NAMESPACE] != null);
assert(window[GLOBAL_NAMESPACE][CORE_NAMESPACE] != null);
Object.assign(core, denoCore);
})(this);