// 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); } function ops() { // op id 0 is a special value to retrieve the map of registered ops. 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 }, ops }; assert(window[GLOBAL_NAMESPACE] != null); assert(window[GLOBAL_NAMESPACE][CORE_NAMESPACE] != null); Object.assign(core, denoCore); })(this);