bitburner-src/src/NetscriptJSEvaluator.ts

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/**
* Uses the acorn.js library to parse a script's code into an AST and
* recursively walk through that AST to replace import urls with blobs
*/
import * as walk from "acorn-walk";
import { parse } from "acorn";
import { makeRuntimeRejectMsg } from "./NetscriptEvaluator";
import { ScriptUrl } from "./Script/ScriptUrl";
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import { WorkerScript } from "./Netscript/WorkerScript";
import { Script } from "./Script/Script";
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import { areImportsEquals } from "./Terminal/DirectoryHelpers";
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import { IPlayer } from "./PersonObjects/IPlayer";
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// Makes a blob that contains the code of a given script.
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function makeScriptBlob(code: string): Blob {
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return new Blob([code], { type: "text/javascript" });
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}
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export async function compile(player: IPlayer, script: Script, scripts: Script[]): Promise<void> {
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if (!shouldCompile(script, scripts)) return;
// The URL at the top is the one we want to import. It will
// recursively import all the other modules in the urlStack.
//
// Webpack likes to turn the import into a require, which sort of
// but not really behaves like import. Particularly, it cannot
// load fully dynamic content. So we hide the import from webpack
// by placing it inside an eval call.
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await script.updateRamUsage(player, scripts);
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const uurls = _getScriptUrls(script, scripts, []);
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const url = uurls[uurls.length - 1].url;
if (script.url && script.url !== url) {
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URL.revokeObjectURL(script.url);
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// Thoughts: Should we be revoking any URLs here?
// If a script is modified repeatedly between two states,
// we could reuse the blob at a later time.
// BlobCache.removeByValue(script.url);
// URL.revokeObjectURL(script.url);
// if (script.dependencies.length > 0) {
// script.dependencies.forEach((dep) => {
// removeBlobFromCache(dep.url);
// URL.revokeObjectURL(dep.url);
// });
// }
}
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if (script.dependencies.length > 0) script.dependencies.forEach((dep) => URL.revokeObjectURL(dep.url));
script.url = uurls[uurls.length - 1].url;
script.module = new Promise((resolve) => resolve(eval("import(uurls[uurls.length - 1].url)")));
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script.dependencies = uurls;
}
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// Begin executing a user JS script, and return a promise that resolves
// or rejects when the script finishes.
// - script is a script to execute (see Script.js). We depend only on .filename and .code.
// scripts is an array of other scripts on the server.
// env is the global environment that should be visible to all the scripts
// (i.e. hack, grow, etc.).
// When the promise returned by this resolves, we'll have finished
// running the main function of the script.
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export async function executeJSScript(
player: IPlayer,
scripts: Script[] = [],
workerScript: WorkerScript,
): Promise<void> {
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const script = workerScript.getScript();
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if (script === null) throw new Error("script is null");
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await compile(player, script, scripts);
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workerScript.ramUsage = script.ramUsage;
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const loadedModule = await script.module;
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const ns = workerScript.env.vars;
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// TODO: putting await in a non-async function yields unhelpful
// "SyntaxError: unexpected reserved word" with no line number information.
if (!loadedModule.main) {
throw makeRuntimeRejectMsg(
workerScript,
`${script.filename} cannot be run because it does not have a main function.`,
);
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}
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return loadedModule.main(ns);
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}
function isDependencyOutOfDate(filename: string, scripts: Script[], scriptModuleSequenceNumber: number): boolean {
const depScript = scripts.find((s) => s.filename == filename);
// If the script is not present on the server, we should recompile, if only to get any necessary
// compilation errors.
if (!depScript) return true;
const depIsMoreRecent = depScript.moduleSequenceNumber > scriptModuleSequenceNumber;
return depIsMoreRecent;
}
/** Returns whether we should compile the script parameter.
*
* @param {Script} script
* @param {Script[]} scripts
*/
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function shouldCompile(script: Script, scripts: Script[]): boolean {
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if (script.module === "") return true;
return script.dependencies.some((dep) => isDependencyOutOfDate(dep.filename, scripts, script.moduleSequenceNumber));
}
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// Gets a stack of blob urls, the top/right-most element being
// the blob url for the named script on the named server.
//
// - script -- the script for whom we are getting a URL.
// - scripts -- all the scripts available on this server
// - seen -- The modules above this one -- to prevent mutual dependency.
//
// TODO We don't make any effort to cache a given module when it is imported at
// different parts of the tree. That hasn't presented any problem with during
// testing, but it might be an idea for the future. Would require a topo-sort
// then url-izing from leaf-most to root-most.
/**
* @param {Script} script
* @param {Script[]} scripts
* @param {Script[]} seen
* @returns {ScriptUrl[]} All of the compiled scripts, with the final one
* in the list containing the blob corresponding to
* the script parameter.
*/
// BUG: apparently seen is never consulted. Oops.
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function _getScriptUrls(script: Script, scripts: Script[], seen: Script[]): ScriptUrl[] {
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// Inspired by: https://stackoverflow.com/a/43834063/91401
const urlStack: ScriptUrl[] = [];
// Seen contains the dependents of the current script. Make sure we include that in the script dependents.
for (const dependent of seen) {
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if (!script.dependents.some((s) => s.server === dependent.server && s.filename == dependent.filename)) {
script.dependents.push({ server: dependent.server, filename: dependent.filename });
}
}
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seen.push(script);
try {
// Replace every import statement with an import to a blob url containing
// the corresponding script. E.g.
//
// import {foo} from "bar.js";
//
// becomes
//
// import {foo} from "blob://<uuid>"
//
// Where the blob URL contains the script content.
// Parse the code into an ast tree
const ast: any = parse(script.code, { sourceType: "module", ecmaVersion: "latest", ranges: true });
const importNodes: Array<any> = [];
// Walk the nodes of this tree and find any import declaration statements.
walk.simple(ast, {
ImportDeclaration(node: any) {
// Push this import onto the stack to replace
importNodes.push({
filename: node.source.value,
start: node.source.range[0] + 1,
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end: node.source.range[1] - 1,
});
},
ExportNamedDeclaration(node: any) {
if (node.source) {
importNodes.push({
filename: node.source.value,
start: node.source.range[0] + 1,
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end: node.source.range[1] - 1,
});
}
},
ExportAllDeclaration(node: any) {
if (node.source) {
importNodes.push({
filename: node.source.value,
start: node.source.range[0] + 1,
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end: node.source.range[1] - 1,
});
}
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},
});
// Sort the nodes from last start index to first. This replaces the last import with a blob first,
// preventing the ranges for other imports from being shifted.
importNodes.sort((a, b) => b.start - a.start);
let transformedCode = script.code;
// Loop through each node and replace the script name with a blob url.
for (const node of importNodes) {
const filename = node.filename.startsWith("./") ? node.filename.substring(2) : node.filename;
// Find the corresponding script.
const matchingScripts = scripts.filter((s) => areImportsEquals(s.filename, filename));
if (matchingScripts.length === 0) continue;
const [importedScript] = matchingScripts;
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const urls = _getScriptUrls(importedScript, scripts, seen);
// The top url in the stack is the replacement import file for this script.
urlStack.push(...urls);
const blob = urls[urls.length - 1].url;
// Replace the blob inside the import statement.
transformedCode = transformedCode.substring(0, node.start) + blob + transformedCode.substring(node.end);
}
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// We automatically define a print function() in the NetscriptJS module so that
// accidental calls to window.print() do not bring up the "print screen" dialog
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transformedCode += `\n//# sourceURL=${script.server}/${script.filename}`;
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const blob = URL.createObjectURL(makeScriptBlob(transformedCode));
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// Push the blob URL onto the top of the stack.
urlStack.push(new ScriptUrl(script.filename, blob, script.moduleSequenceNumber));
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return urlStack;
} catch (err) {
// If there is an error, we need to clean up the URLs.
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for (const url of urlStack) URL.revokeObjectURL(url.url);
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throw err;
} finally {
seen.pop();
}
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}