6.0 KiB
lighthouse
Stops you crashing into the rocks; lights the way
status: prototype extension and CLI available for testing
Install Chrome extension
Requires Chrome version 52 or higher
chrome.google.com/webstore/detail/lighthouse/blipmdconlkpinefehnmjammfjpmpbjk
Install CLI
Requires Node version 5 or higher
npm install -g GoogleChrome/lighthouse
Run
# Start Chrome with a few flags
npm explore -g lighthouse -- npm run chrome
# Kick off a lighthouse run
lighthouse https://airhorner.com/
# see flags and options
lighthouse --help
Develop
Setup
git clone https://github.com/GoogleChrome/lighthouse
cd lighthouse
# will be cleaner soon.
cd lighthouse-core
npm install
cd ../lighthouse-cli/
npm install
# npm link # nah...
# just use `node lighthouse-cli/index.js` for now
# probably very temporary
cd lighthouse-core
npm link
cd ../lighthouse-cli/
npm link lighthouse-core
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
- 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.
Protocol
- Interacting with Chrome: The Chrome protocol connection maintained via chrome-remote-interface for the CLI and
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:
# 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