"use strict"; var goog = goog || {}; goog.exportSymbol = function() {}; goog.exportProperty = function() {}; var v86util = v86util || {}; // pad string with spaces on the right v86util.pads = function(str, len) { str = (str || str === 0) ? str + "" : ""; return str.padEnd(len, " "); }; // pad string with zeros on the left v86util.pad0 = function(str, len) { str = (str || str === 0) ? str + "" : ""; return str.padStart(len, "0"); }; // generates array given size with zeros v86util.zeros = function(size) { return Array(size).fill(0); }; // generates [0, 1, 2, ..., size-1] v86util.range = function(size) { return Array.from(Array(size).keys()); }; v86util.view = function(constructor, memory, offset, length) { return new Proxy({}, { get: function(target, property, receiver) { const b = new constructor(memory.buffer, offset, length); const x = b[property]; if(typeof x === "function") { return x.bind(b); } dbg_assert(/^\d+$/.test(property) || property === "buffer" || property === "length" || property === "BYTES_PER_ELEMENT" || property === "byteOffset"); return x; }, set: function(target, property, value, receiver) { dbg_assert(/^\d+$/.test(property)); new constructor(memory.buffer, offset, length)[property] = value; return true; }, }); }; /** * number to hex * @param {number} n * @param {number=} len * @return {string} */ function h(n, len) { if(!n) { var str = ""; } else { var str = n.toString(16); } return "0x" + v86util.pad0(str.toUpperCase(), len || 1); } function hex_dump(buffer) { function hex(n, len) { return v86util.pad0(n.toString(16).toUpperCase(), len); } const result = []; let offset = 0; for(; offset + 15 < buffer.length; offset += 16) { let line = hex(offset, 5) + " "; for(let j = 0; j < 0x10; j++) { line += hex(buffer[offset + j], 2) + " "; } line += " "; for(let j = 0; j < 0x10; j++) { const x = buffer[offset + j]; line += (x >= 33 && x !== 34 && x !== 92 && x <= 126) ? String.fromCharCode(x) : "."; } result.push(line); } let line = hex(offset, 5) + " "; for(; offset < buffer.length; offset++) { line += hex(buffer[offset], 2) + " "; } const remainder = offset & 0xF; line += " ".repeat(0x10 - remainder); line += " "; for(let j = 0; j < remainder; j++) { const x = buffer[offset + j]; line += (x >= 33 && x !== 34 && x !== 92 && x <= 126) ? String.fromCharCode(x) : "."; } result.push(line); return "\n" + result.join("\n") + "\n"; } if(typeof crypto !== "undefined" && crypto.getRandomValues) { let rand_data = new Int32Array(1); v86util.get_rand_int = function() { crypto.getRandomValues(rand_data); return rand_data[0]; }; } else if(typeof require !== "undefined") { /** @type {{ randomBytes: Function }} */ const crypto = require("crypto"); v86util.get_rand_int = function() { return crypto.randomBytes(4)["readInt32LE"](0); }; } else { dbg_assert(false, "Unsupported platform: No cryptographic random values"); } (function() { if(typeof Math.clz32 === "function" && Math.clz32(0) === 32 && Math.clz32(0x12345) === 15 && Math.clz32(-1) === 0) { /** * calculate the integer logarithm base 2 of a byte * @param {number} x * @return {number} */ v86util.int_log2_byte = function(x) { dbg_assert(x > 0); dbg_assert(x < 0x100); return 31 - Math.clz32(x); }; /** * calculate the integer logarithm base 2 * @param {number} x * @return {number} */ v86util.int_log2 = function(x) { dbg_assert(x > 0); return 31 - Math.clz32(x); }; return; } var int_log2_table = new Int8Array(256); for(var i = 0, b = -2; i < 256; i++) { if(!(i & i - 1)) b++; int_log2_table[i] = b; } /** * calculate the integer logarithm base 2 of a byte * @param {number} x * @return {number} */ v86util.int_log2_byte = function(x) { dbg_assert(x > 0); dbg_assert(x < 0x100); return int_log2_table[x]; }; /** * calculate the integer logarithm base 2 * @param {number} x * @return {number} */ v86util.int_log2 = function(x) { x >>>= 0; dbg_assert(x > 0); // http://jsperf.com/integer-log2/6 var tt = x >>> 16; if(tt) { var t = tt >>> 8; if(t) { return 24 + int_log2_table[t]; } else { return 16 + int_log2_table[tt]; } } else { var t = x >>> 8; if(t) { return 8 + int_log2_table[t]; } else { return int_log2_table[x]; } } }; })(); /** * @constructor * * Queue wrapper around Uint8Array * Used by devices such as the PS2 controller */ function ByteQueue(size) { var data = new Uint8Array(size), start, end; dbg_assert((size & size - 1) === 0); this.length = 0; this.push = function(item) { if(this.length === size) { // intentional overwrite } else { this.length++; } data[end] = item; end = end + 1 & size - 1; }; this.shift = function() { if(!this.length) { return -1; } else { var item = data[start]; start = start + 1 & size - 1; this.length--; return item; } }; this.peek = function() { if(!this.length) { return -1; } else { return data[start]; } }; this.clear = function() { start = 0; end = 0; this.length = 0; }; this.clear(); } /** * @constructor * * Queue wrapper around Float32Array * Used by devices such as the sound blaster sound card */ function FloatQueue(size) { this.size = size; this.data = new Float32Array(size); this.start = 0; this.end = 0; this.length = 0; dbg_assert((size & size - 1) === 0); } FloatQueue.prototype.push = function(item) { if(this.length === this.size) { // intentional overwrite this.start = this.start + 1 & this.size - 1; } else { this.length++; } this.data[this.end] = item; this.end = this.end + 1 & this.size - 1; }; FloatQueue.prototype.shift = function() { if(!this.length) { return undefined; } else { var item = this.data[this.start]; this.start = this.start + 1 & this.size - 1; this.length--; return item; } }; FloatQueue.prototype.shift_block = function(count) { var slice = new Float32Array(count); if(count > this.length) { count = this.length; } var slice_end = this.start + count; var partial = this.data.subarray(this.start, slice_end); slice.set(partial); if(slice_end >= this.size) { slice_end -= this.size; slice.set(this.data.subarray(0, slice_end), partial.length); } this.start = slice_end; this.length -= count; return slice; }; FloatQueue.prototype.peek = function() { if(!this.length) { return undefined; } else { return this.data[this.start]; } }; FloatQueue.prototype.clear = function() { this.start = 0; this.end = 0; this.length = 0; }; /** * Simple circular queue for logs * * @param {number} size * @constructor */ function CircularQueue(size) { this.data = []; this.index = 0; this.size = size; } CircularQueue.prototype.add = function(item) { this.data[this.index] = item; this.index = (this.index + 1) % this.size; }; CircularQueue.prototype.toArray = function() { return [].slice.call(this.data, this.index).concat([].slice.call(this.data, 0, this.index)); }; CircularQueue.prototype.clear = function() { this.data = []; this.index = 0; }; /** * @param {Array} new_data */ CircularQueue.prototype.set = function(new_data) { this.data = new_data; this.index = 0; }; function dump_file(ab, name) { if(!(ab instanceof Array)) { ab = [ab]; } var blob = new Blob(ab); download(blob, name); } function download(file_or_blob, name) { var a = document.createElement("a"); a["download"] = name; a.href = window.URL.createObjectURL(file_or_blob); a.dataset["downloadurl"] = ["application/octet-stream", a["download"], a.href].join(":"); if(document.createEvent) { var ev = document.createEvent("MouseEvent"); ev.initMouseEvent("click", true, true, window, 0, 0, 0, 0, 0, false, false, false, false, 0, null); a.dispatchEvent(ev); } else { a.click(); } window.URL.revokeObjectURL(a.href); } /** * A simple 1d bitmap * @constructor */ v86util.Bitmap = function(length_or_buffer) { if(typeof length_or_buffer === "number") { this.view = new Uint8Array(length_or_buffer + 7 >> 3); } else if(length_or_buffer instanceof ArrayBuffer) { this.view = new Uint8Array(length_or_buffer); } else { dbg_assert(false, "v86util.Bitmap: Invalid argument"); } }; v86util.Bitmap.prototype.set = function(index, value) { const bit_index = index & 7; const byte_index = index >> 3; const bit_mask = 1 << bit_index; this.view[byte_index] = value ? this.view[byte_index] | bit_mask : this.view[byte_index] & ~bit_mask; }; v86util.Bitmap.prototype.get = function(index) { const bit_index = index & 7; const byte_index = index >> 3; return this.view[byte_index] >> bit_index & 1; }; v86util.Bitmap.prototype.get_buffer = function() { return this.view.buffer; }; if(typeof XMLHttpRequest === "undefined") { v86util.load_file = load_file_nodejs; } else { v86util.load_file = load_file; } /** * @param {string} filename * @param {Object} options * @param {number=} n_tries */ function load_file(filename, options, n_tries) { var http = new XMLHttpRequest(); http.open(options.method || "get", filename, true); if(options.as_json) { http.responseType = "json"; } else { http.responseType = "arraybuffer"; } if(options.headers) { var header_names = Object.keys(options.headers); for(var i = 0; i < header_names.length; i++) { var name = header_names[i]; http.setRequestHeader(name, options.headers[name]); } } if(options.range) { let start = options.range.start; let end = start + options.range.length - 1; http.setRequestHeader("Range", "bytes=" + start + "-" + end); // Abort if server responds with complete file in response to range // request, to prevent downloading large files from broken http servers http.onreadystatechange = function() { if(http.status === 200) { http.abort(); } }; } http.onload = function(e) { if(http.readyState === 4) { if(http.status !== 200 && http.status !== 206) { console.error("Loading the image " + filename + " failed (status %d)", http.status); if(http.status >= 500 && http.status < 600) { retry(); } } else if(http.response) { options.done && options.done(http.response, http); } } }; http.onerror = function(e) { console.error("Loading the image " + filename + " failed", e); retry(); }; if(options.progress) { http.onprogress = function(e) { options.progress(e); }; } http.send(null); function retry() { const number_of_tries = n_tries || 0; const timeout = [1, 1, 2, 3, 5, 8, 13, 21][number_of_tries] || 34; setTimeout(() => { load_file(filename, options, number_of_tries + 1); }, 1000 * timeout); } } function load_file_nodejs(filename, options) { let fs = require("fs"); if(options.range) { dbg_assert(!options.as_json); fs["open"](filename, "r", (err, fd) => { if(err) throw err; let length = options.range.length; var buffer = Buffer.allocUnsafe(length); fs["read"](fd, buffer, 0, length, options.range.start, (err, bytes_read) => { if(err) throw err; dbg_assert(bytes_read === length); options.done && options.done(new Uint8Array(buffer)); fs["close"](fd, (err) => { if(err) throw err; }); }); }); } else { var o = { encoding: options.as_json ? "utf-8" : null, }; fs["readFile"](filename, o, function(err, data) { if(err) { console.log("Could not read file:", filename, err); } else { var result = data; if(options.as_json) { result = JSON.parse(result); } else { result = new Uint8Array(result).buffer; } options.done(result); } }); } } // Reads len characters at offset from Memory object mem as a JS string v86util.read_sized_string_from_mem = function read_sized_string_from_mem(mem, offset, len) { offset >>>= 0; len >>>= 0; return String.fromCharCode(...new Uint8Array(mem.buffer, offset, len)); };