Lighthouse
Lighthouse analyzes web apps and web pages, collecting modern performance metrics and insights on developer best practices.
HTML report:
Default CLI output:
Lighthouse requires Chrome 52 or later.
Install Chrome extension
Install from the Chrome Web Store: chrome.google.com/webstore/detail/lighthouse/…
Quick-start guide on using the Lighthouse extension: http://bit.ly/lighthouse-quickstart
Install CLI
Requires Node v5+ or Node v4 w/ --harmony
npm install -g lighthouse
# or if you use yarn:
# yarn global add lighthouse
Run
# Kick off a lighthouse run
lighthouse https://airhorner.com/
# see flags and options
lighthouse --help
Lighthouse Viewer
If you run Lighthouse with the --output=json
flag, it will generate a json dump of the run. You can view this report online by visiting http://googlechrome.github.io/lighthouse/viewer/ and dragging the file onto the app. Reports can also be shared by clicking the share icon in the top right corner and signing in to Github.
Note: shared reports are stashed as a secret Gist in Github, under your account.
Develop
Setup
git clone https://github.com/GoogleChrome/lighthouse
cd lighthouse
npm install
# The CLI is authored in TypeScript and requires compilation:
cd lighthouse-cli
npm install
npm run build
# To run the TS compiler in watch mode:
# cd lighthouse-cli && npm run dev
Run
node lighthouse-cli http://example.com
Geting started tip: node --inspect --debug-brk lighthouse-cli http://example.com
to open up Chrome DevTools and step
through the entire app. See Debugging Node.js with Chrome
DevTools
for more info.
Custom run configuration
You can supply your own run configuration to customize what audits you want details on. Copy the default.json and start customizing. Then provide to the CLI with lighthouse --config-path=myconfig.json <url>
Custom audits and gatherers
The audits and gatherers checked into the lighthouse repo are available to any configuration. If you're interested in writing your own audits or gatherers, you can use them with Lighthouse without necessarily contributing upstream.
Better docs coming soon, but in the meantime look at PR #593, and the tests valid-custom-audit.js and valid-custom-gatherer.js. If you have questions, please file an issue and we'll help out!
Do Better Web
Do Better Web is an initiative within Lighthouse to help web developers modernize their existing web applications. By running a set of tests, developers can discover new web platform APIs, become aware of performance pitfalls, and learn (newer) best practices. In other words, do better on the web!
DBW is implemented as a set of standalone gatherers and audits that are run alongside the core Lighthouse tests.
To run DBW, just run lighthouse
against a URL. The tests show up under "Best Practices" in the report.
If you'd like to contribute, check the list of issues or propose a new audit by filing an issue.
Lighthouse as trace processor
Lighthouse can be used to analyze trace and performance data collected from other tools (like WebPageTest and ChromeDriver). The traces
and performanceLog
artifact items can be provided using a string for the absolute path on disk. The perf log is captured from the Network domain (a la ChromeDriver's enableNetwork
option) and reformatted slightly. As an example, here's a trace-only run that's reporting on user timings and critical request chains:
config.json
{
"audits": [
"user-timings",
"critical-request-chains"
],
"artifacts": {
"traces": {
"defaultPass": "/User/me/lighthouse/lighthouse-core/test/fixtures/traces/trace-user-timings.json"
},
"performanceLog": "/User/me/lighthouse/lighthouse-core/test/fixtures/traces/perflog.json"
},
"aggregations": [{
"name": "Performance Metrics",
"description": "These encapsulate your app's performance.",
"scored": false,
"categorizable": false,
"items": [{
"audits": {
"user-timings": { "expectedValue": 0, "weight": 1 },
"critical-request-chains": { "expectedValue": 0, "weight": 1}
}
}]
}]
}
Then, run with: lighthouse --config-path=config.json http://www.random.url
Lighthouse CLI options
$ lighthouse --help
lighthouse <url>
Logging:
--verbose Displays verbose logging [boolean]
--quiet Displays no progress or debug logs [boolean]
Configuration:
--disable-device-emulation Disable device emulation [boolean]
--disable-cpu-throttling Disable cpu throttling [boolean]
--disable-network-throttling Disable network throttling [boolean]
--save-assets Save the trace contents & screenshots to disk [boolean]
--save-artifacts Save all gathered artifacts to disk [boolean]
--list-all-audits Prints a list of all available audits and exits [boolean]
--list-trace-categories Prints a list of all required trace categories and exits [boolean]
--config-path The path to the config JSON.
--perf Use a performance-test-only configuration [boolean]
Output:
--output Reporter for the results
[choices: "pretty", "json", "html"] [default: "pretty"]
--output-path The file path to output the results
Example: --output-path=./lighthouse-results.html [default: "stdout"]
Options:
--help Show help [boolean]
--version Show version number [boolean]
--skip-autolaunch Skip autolaunch of Chrome when accessing port 9222 fails [boolean]
--select-chrome Interactively choose version of Chrome to use when multiple
installations are found [boolean]
Lighthouse w/ mobile devices
Lighthouse can run against a real mobile device. You can follow the Remote Debugging on Android (Legacy Workflow) up through step 3.3, but the TL;DR is install & run adb, enable USB debugging, then port forward 9222 from the device to the machine with Lighthouse.
You'll likely want to use the CLI flags --disable-device-emulation --disable-cpu-throttling
and potentially --disable-network-throttling
.
$ adb kill-server
$ adb devices -l
* daemon not running. starting it now on port 5037 *
* daemon started successfully *
00a2fd8b1e631fcb device usb:335682009X product:bullhead model:Nexus_5X device:bullhead
$ adb forward tcp:9222 localabstract:chrome_devtools_remote
$ lighthouse --disable-device-emulation --disable-cpu-throttling https://mysite.com
Tests
Some basic unit tests forked are in /test
and run via mocha. eslint is also checked for style violations.
# lint and test all files
npm test
# watch for file changes and run tests
# Requires http://entrproject.org : brew install entr
npm run watch
## run linting and unit tests seprately
npm run lint
npm run unit
Chrome Extension
The same audits are run against from a Chrome extension. See ./extension.
Architecture
Some incomplete notes
Components
- Driver - Interfaces with Chrome Debugging Protocol (API viewer)
- Gathers - Requesting data from the browser (and maybe post-processing)
- Artifacts - The output of gatherers
- Audits - Non-performance evaluations of capabilities and issues. Includes a raw value and score of that value.
- Metrics - Performance metrics summarizing the UX
- Diagnoses - The perf problems that affect those metrics
- Aggregators - Pulling audit results, grouping into user-facing components (eg.
install_to_homescreen
) and applying weighting and overall scoring.
Internal module graph
npm install -g js-vd; vd --exclude "node_modules|third_party|fs|path|url|log" lighthouse-core/ > graph.html
Protocol
- Interacting with Chrome: The Chrome protocol connection maintained via WebSocket for the CLI
chrome.debuggger
API when in the Chrome extension. - Event binding & domains: Some domains must be
enable()
d so they issue events. Once enabled, they flush any events that represent state. As such, network events will only issue after the domain is enabled. All the protocol agents resolve theirDomain.enable()
callback after they have flushed any pending events. See example:
// will NOT work
driver.sendCommand('Security.enable').then(_ => {
driver.on('Security.securityStateChanged', state => { /* ... */ });
})
// WILL work! happy happy. :)
driver.on('Security.securityStateChanged', state => { /* ... */ }); // event binding is synchronous
driver.sendCommand('Security.enable');
- Debugging the protocol: Read Better debugging of the Protocol.
Gatherers
- Reading the DOM: We prefer reading the DOM right from the browser (See #77). The driver exposes a
querySelector
method that can be used along with agetAttribute
method to read values.
Audits
The return value of each audit takes this shape:
Promise.resolve({
name: 'audit-name',
tags: ['what have you'],
description: 'whatnot',
// value: The score. Typically a boolean, but can be number 0-100
value: 0,
// rawValue: Could be anything, as long as it can easily be stringified and displayed,
// e.g. 'your score is bad because you wrote ${rawValue}'
rawValue: {},
// debugString: Some *specific* error string for helping the user figure out why they failed here.
// The reporter can handle *general* feedback on how to fix, e.g. links to the docs
debugString: 'Your manifest 404ed',
// fault: Optional argument when the audit doesn't cover whatever it is you're doing,
// e.g. we can't parse your particular corner case out of a trace yet.
// Whatever is in `rawValue` and `score` would be N/A in these cases
fault: 'some reason the audit has failed you, Anakin'
});
Code Style
The .eslintrc
defines all.
We're using JSDoc along with closure annotations. Annotations encouraged for all contributions.
const
> let
> var
. Use const
wherever possible. Save var
for emergencies only.
Trace processing
The traceviewer-based trace processor from node-big-rig was forked into Lighthouse. Additionally, the DevTools' Timeline Model is available as well. There may be advantages for using one model over another.
To update traceviewer source:
cd lighthouse-core
# if not already there, clone catapult and copy license over
git clone --depth=1 https://github.com/catapult-project/catapult.git third_party/src/catapult
cp third_party/src/catapult/LICENSE third_party/traceviewer-js/
# pull for latest
git -C "./third_party/src/catapult/" pull
# run our conversion script
node scripts/build-traceviewer-module.js
Lighthouse, ˈlītˌhous (n): a tower or other structure tool containing a beacon light to warn or guide ships developers at "sea".