webpack
Version:
Packs CommonJs/AMD modules for the browser. Allows to split your codebase into multiple bundles, which can be loaded on demand. Support loaders to preprocess files, i.e. json, jsx, es7, css, less, ... and your custom stuff.
452 lines (408 loc) • 10.5 kB
JavaScript
/*
MIT License http://www.opensource.org/licenses/mit-license.php
*/
;
const { Tracer } = require("chrome-trace-event");
const createSchemaValidation = require("../util/create-schema-validation");
const { dirname, mkdirpSync } = require("../util/fs");
/** @typedef {import("../../declarations/plugins/debug/ProfilingPlugin").ProfilingPluginOptions} ProfilingPluginOptions */
/** @typedef {import("../util/fs").IntermediateFileSystem} IntermediateFileSystem */
const validate = createSchemaValidation(
require("../../schemas/plugins/debug/ProfilingPlugin.check.js"),
() => require("../../schemas/plugins/debug/ProfilingPlugin.json"),
{
name: "Profiling Plugin",
baseDataPath: "options"
}
);
let inspector = undefined;
try {
// eslint-disable-next-line node/no-unsupported-features/node-builtins
inspector = require("inspector");
} catch (e) {
console.log("Unable to CPU profile in < node 8.0");
}
class Profiler {
constructor(inspector) {
this.session = undefined;
this.inspector = inspector;
this._startTime = 0;
}
hasSession() {
return this.session !== undefined;
}
startProfiling() {
if (this.inspector === undefined) {
return Promise.resolve();
}
try {
this.session = new inspector.Session();
this.session.connect();
} catch (_) {
this.session = undefined;
return Promise.resolve();
}
const hrtime = process.hrtime();
this._startTime = hrtime[0] * 1000000 + Math.round(hrtime[1] / 1000);
return Promise.all([
this.sendCommand("Profiler.setSamplingInterval", {
interval: 100
}),
this.sendCommand("Profiler.enable"),
this.sendCommand("Profiler.start")
]);
}
sendCommand(method, params) {
if (this.hasSession()) {
return new Promise((res, rej) => {
return this.session.post(method, params, (err, params) => {
if (err !== null) {
rej(err);
} else {
res(params);
}
});
});
} else {
return Promise.resolve();
}
}
destroy() {
if (this.hasSession()) {
this.session.disconnect();
}
return Promise.resolve();
}
stopProfiling() {
return this.sendCommand("Profiler.stop").then(({ profile }) => {
const hrtime = process.hrtime();
const endTime = hrtime[0] * 1000000 + Math.round(hrtime[1] / 1000);
if (profile.startTime < this._startTime || profile.endTime > endTime) {
// In some cases timestamps mismatch and we need to adjust them
// Both process.hrtime and the inspector timestamps claim to be relative
// to a unknown point in time. But they do not guarantee that this is the
// same point in time.
const duration = profile.endTime - profile.startTime;
const ownDuration = endTime - this._startTime;
const untracked = Math.max(0, ownDuration - duration);
profile.startTime = this._startTime + untracked / 2;
profile.endTime = endTime - untracked / 2;
}
return { profile };
});
}
}
/**
* an object that wraps Tracer and Profiler with a counter
* @typedef {Object} Trace
* @property {Tracer} trace instance of Tracer
* @property {number} counter Counter
* @property {Profiler} profiler instance of Profiler
* @property {Function} end the end function
*/
/**
* @param {IntermediateFileSystem} fs filesystem used for output
* @param {string} outputPath The location where to write the log.
* @returns {Trace} The trace object
*/
const createTrace = (fs, outputPath) => {
const trace = new Tracer({
noStream: true
});
const profiler = new Profiler(inspector);
if (/\/|\\/.test(outputPath)) {
const dirPath = dirname(fs, outputPath);
mkdirpSync(fs, dirPath);
}
const fsStream = fs.createWriteStream(outputPath);
let counter = 0;
trace.pipe(fsStream);
// These are critical events that need to be inserted so that tools like
// chrome dev tools can load the profile.
trace.instantEvent({
name: "TracingStartedInPage",
id: ++counter,
cat: ["disabled-by-default-devtools.timeline"],
args: {
data: {
sessionId: "-1",
page: "0xfff",
frames: [
{
frame: "0xfff",
url: "webpack",
name: ""
}
]
}
}
});
trace.instantEvent({
name: "TracingStartedInBrowser",
id: ++counter,
cat: ["disabled-by-default-devtools.timeline"],
args: {
data: {
sessionId: "-1"
}
}
});
return {
trace,
counter,
profiler,
end: callback => {
// Wait until the write stream finishes.
fsStream.on("close", () => {
callback();
});
// Tear down the readable trace stream.
trace.push(null);
}
};
};
const pluginName = "ProfilingPlugin";
class ProfilingPlugin {
/**
* @param {ProfilingPluginOptions=} options options object
*/
constructor(options = {}) {
validate(options);
this.outputPath = options.outputPath || "events.json";
}
apply(compiler) {
const tracer = createTrace(
compiler.intermediateFileSystem,
this.outputPath
);
tracer.profiler.startProfiling();
// Compiler Hooks
Object.keys(compiler.hooks).forEach(hookName => {
compiler.hooks[hookName].intercept(
makeInterceptorFor("Compiler", tracer)(hookName)
);
});
Object.keys(compiler.resolverFactory.hooks).forEach(hookName => {
compiler.resolverFactory.hooks[hookName].intercept(
makeInterceptorFor("Resolver", tracer)(hookName)
);
});
compiler.hooks.compilation.tap(
pluginName,
(compilation, { normalModuleFactory, contextModuleFactory }) => {
interceptAllHooksFor(compilation, tracer, "Compilation");
interceptAllHooksFor(
normalModuleFactory,
tracer,
"Normal Module Factory"
);
interceptAllHooksFor(
contextModuleFactory,
tracer,
"Context Module Factory"
);
interceptAllParserHooks(normalModuleFactory, tracer);
interceptAllJavascriptModulesPluginHooks(compilation, tracer);
}
);
// We need to write out the CPU profile when we are all done.
compiler.hooks.done.tapAsync(
{
name: pluginName,
stage: Infinity
},
(stats, callback) => {
tracer.profiler.stopProfiling().then(parsedResults => {
if (parsedResults === undefined) {
tracer.profiler.destroy();
tracer.trace.flush();
tracer.end(callback);
return;
}
const cpuStartTime = parsedResults.profile.startTime;
const cpuEndTime = parsedResults.profile.endTime;
tracer.trace.completeEvent({
name: "TaskQueueManager::ProcessTaskFromWorkQueue",
id: ++tracer.counter,
cat: ["toplevel"],
ts: cpuStartTime,
args: {
src_file: "../../ipc/ipc_moji_bootstrap.cc",
src_func: "Accept"
}
});
tracer.trace.completeEvent({
name: "EvaluateScript",
id: ++tracer.counter,
cat: ["devtools.timeline"],
ts: cpuStartTime,
dur: cpuEndTime - cpuStartTime,
args: {
data: {
url: "webpack",
lineNumber: 1,
columnNumber: 1,
frame: "0xFFF"
}
}
});
tracer.trace.instantEvent({
name: "CpuProfile",
id: ++tracer.counter,
cat: ["disabled-by-default-devtools.timeline"],
ts: cpuEndTime,
args: {
data: {
cpuProfile: parsedResults.profile
}
}
});
tracer.profiler.destroy();
tracer.trace.flush();
tracer.end(callback);
});
}
);
}
}
const interceptAllHooksFor = (instance, tracer, logLabel) => {
if (Reflect.has(instance, "hooks")) {
Object.keys(instance.hooks).forEach(hookName => {
const hook = instance.hooks[hookName];
if (!hook._fakeHook) {
hook.intercept(makeInterceptorFor(logLabel, tracer)(hookName));
}
});
}
};
const interceptAllParserHooks = (moduleFactory, tracer) => {
const moduleTypes = [
"javascript/auto",
"javascript/dynamic",
"javascript/esm",
"json",
"webassembly/async",
"webassembly/sync"
];
moduleTypes.forEach(moduleType => {
moduleFactory.hooks.parser
.for(moduleType)
.tap("ProfilingPlugin", (parser, parserOpts) => {
interceptAllHooksFor(parser, tracer, "Parser");
});
});
};
const interceptAllJavascriptModulesPluginHooks = (compilation, tracer) => {
interceptAllHooksFor(
{
hooks:
require("../javascript/JavascriptModulesPlugin").getCompilationHooks(
compilation
)
},
tracer,
"JavascriptModulesPlugin"
);
};
const makeInterceptorFor = (instance, tracer) => hookName => ({
register: ({ name, type, context, fn }) => {
const newFn = makeNewProfiledTapFn(hookName, tracer, {
name,
type,
fn
});
return {
name,
type,
context,
fn: newFn
};
}
});
// TODO improve typing
/** @typedef {(...args: TODO[]) => void | Promise<TODO>} PluginFunction */
/**
* @param {string} hookName Name of the hook to profile.
* @param {Trace} tracer The trace object.
* @param {object} options Options for the profiled fn.
* @param {string} options.name Plugin name
* @param {string} options.type Plugin type (sync | async | promise)
* @param {PluginFunction} options.fn Plugin function
* @returns {PluginFunction} Chainable hooked function.
*/
const makeNewProfiledTapFn = (hookName, tracer, { name, type, fn }) => {
const defaultCategory = ["blink.user_timing"];
switch (type) {
case "promise":
return (...args) => {
const id = ++tracer.counter;
tracer.trace.begin({
name,
id,
cat: defaultCategory
});
const promise = /** @type {Promise<*>} */ (fn(...args));
return promise.then(r => {
tracer.trace.end({
name,
id,
cat: defaultCategory
});
return r;
});
};
case "async":
return (...args) => {
const id = ++tracer.counter;
tracer.trace.begin({
name,
id,
cat: defaultCategory
});
const callback = args.pop();
fn(...args, (...r) => {
tracer.trace.end({
name,
id,
cat: defaultCategory
});
callback(...r);
});
};
case "sync":
return (...args) => {
const id = ++tracer.counter;
// Do not instrument ourself due to the CPU
// profile needing to be the last event in the trace.
if (name === pluginName) {
return fn(...args);
}
tracer.trace.begin({
name,
id,
cat: defaultCategory
});
let r;
try {
r = fn(...args);
} catch (error) {
tracer.trace.end({
name,
id,
cat: defaultCategory
});
throw error;
}
tracer.trace.end({
name,
id,
cat: defaultCategory
});
return r;
};
default:
break;
}
};
module.exports = ProfilingPlugin;
module.exports.Profiler = Profiler;