Safari Technology Preview Release 128 is now available for download for macOS Big Sur and betas of macOS Monterey. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

This release covers WebKit revisions 278571-279264.

Note: Tab Groups do not sync in this release.

Web Inspector

• Elements Tab
  • Unused inherited CSS variables are now hidden by default in the Styles panel (r278607)
  • CSS variable names are no longer converted to all lowercase in the Computed panel (r278848)

CSS

• Added support for 12 CSS list-style-type values along with other list style fixes (r279165)
• Fixed CSSOM “set a CSS declaration” for logical properties (r279044)
• Fixed new snap containers always snapping to the first scroll position (r278862)
• Fixed Scroll snap offsets interpreted as scroll positions in a scrollable area (r278868)
• Fixed flex items staying invisible after initial layout (r278659)
• Fixed text-decoration: underline not applied to web component (r278602)
• Stopped computing the min or max sizes of flex items twice (r278865)

JavaScript

• Ignored Intl.NumberFormat feature options when linked-ICU is old (r278697)
• Optimized JSON.parse with small data by changing Identifier pool mechanism (r278971)
• Optimized valueOf call via ToPrimitive (r279053)
• Fixed that Window should behave like a legacy platform object without indexed setter (r278585)

Live Text

• Added a mechanism to regenerate text in an image element when it changes dimensions (r278747)
• Changed mouse events to trigger text recognition only if the cursor is moving (r279059)
• Text selection inside image elements should not be cleared upon resize (r278775)

Media

• Reworked handling buffer full in SourceBuffer (r278603)

Performance API

• Implemented performance.timeOrigin (r278665)

Web API

• Adjusted fetch port blocking for ports 990, 989 (r279099)
• Fixed Document’s execCommand() and queryCommand() to throw an exception on non-HTML or non-XHTML documents ** (r278974)
• Fixed EventSource.constructor to not throw an exception when the URL parameter is an empty string (r278763)
• Implemented width and height attributes on source elements of <picture> (r279108)
• Improved specification compatibility for the outerHTML setter (r278821)

Safari Technology Preview Release 127 is now available for download for macOS Big Sur and betas of macOS Monterey. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

This release covers WebKit revisions 277448-278571.

Note: Tab Groups and Theme Colors are not available in this release on macOS Big Sur.

CSS

• Added discrete animation support for grid-template-columns and grid-template-rows (r278173)
• Added support for calc() on components inside relative color syntax colors (r278261, r278304)
• Added support for “relative color syntax” for color() (r278364)
• Added additional target luminance keywords for color-contrast() (r278262)
• Fixed the height of an empty table inside an orthogonal flex parent (r277777)
• Fixed will-change: position to only create a containing block for position: absolute elements (r277579)
• Made will-change: transform-style create a containing block (r277566)
• Fixed percent calculations for padding-top and padding-bottom when the parent has padding (r278194)

Scrolling

• Fixed scroll snapping in non-horizontal writing modes (r278350)
• Fixed layout issue handling changes to scroll-snap properties (r278193)
• Improved scrolling performance when background-attachment: fixed is used inside a position: fixed layer (r278419)
• Improved how the current document scroll position is maintained on full page zoom (r277775)

JavaScript

• Added support for Ergonomic Brand Checks proposal (e.g. #x in object) behind the--usePrivateIn flag (r277926)
• Fixed private static method in class-scope (r278510)
• Optimized Function.prototype.toString (r278462)
• Optimized in with non-identifier via non ad-hoc IC (r278445)

Media

• Added MediaSession.callActionHandler (r278222)
• Fixed MediaSession action handlers to be treated as having a user gesture (r277588)
• Fixed macOS WebM Format Reader returning enabled for tracks that do not have samples (r278155)
• Added support for H.264 profiles in MediaRecorder (r278158)

WebRTC

• Changed to tighter bitrate allocation rules for WebRTC H.264 software encoder (r278272)

Web API

• Added support for creating, accessing, and setting non-sRGB ImageData via canvas (r277569)
• Added support for dispatching wheel events with ctrlKey on pinch gestures, which is commonly used for zooming embedded maps (r277772)
• Fixed the value of a color input to update visually when using setAttribute (r277778)

Accessibility

• Fixed increased contrast not detected in the browser until an additional setting is applied (r277971)
• Fixed accessibility caption styles to always reflect the selection (r277874)

Rendering

• Enabled <summary> to be a flex container (r278280)
• Changed grid track size to reject a unit-less length (r277868)
• Fixed incorrect selection when a tall float element is present (r278379)
• Fixed incorrect text selection when crossing a flex item boundary (r278411)

In case you’re not familiar with WebKit‘s multiprocess model, allow me to explain some basics: In WebKitGTK and WPE we currently have three main processes which collaborate in order to ultimately render the web pages (this is subject to change, probably with the addition of new processes):

1. The UI process: this is the process of the application that instantiates the web view. For example, Cog when using WPE or Epiphany when using WebKitGTK. This process is usually in charge of interacting with the user/application and send events and requests to the other processes.
2. The network process: the goal of this process is to perform network requests for the different web processes and make the results available to them.
3. The web process: this is the process that really performs the heavy lifting. It’s in charge of requesting the resources required by the page (through the network process), create the DOM tree, execute the JS code, render the content, respond to user events, etc.

In a simple case, we would have a UI process, a web process and a network process working together to render a page. There are situations where (due to security reasons, performance, build options, etc.) the same UI process can be using more than a single web process at the same time, while these share the network process. I won’t go into details about all the possibilities here because that’s beyond the goal of this post (but it’s a good idea for a future post!). If you want more information related to this you can search for topics like process prewarm, process swap on navigation or service workers running on a dedicated processes. In any case, at any given moment, one of those web processes is always the main one performing all the tasks mentioned before, and the others are helpers for concrete tasks, so the situation is equivalent to the simpler case of a single UI process, a web process and an network process.

Developers know that processes have the bad habit of getting hung sometimes, and that can happen here as well to any of the processes. Unfortunately, in many cases that’s probably due to some kind of bug in the code executed by the processes and we can’t do much more about that than fixing the bug. But there’s a special kind of block that affects the web process only, and it’s related to the execution of JS code. Consider this simple JS script for example:

setTimeout(function() {
    while(true) { }
}, 1000);

This will create an infinite loop during the JS execution after one second, blocking the main thread of the web process, and taking 100% of the execution time. The main thread, besides executing the JS code, is also in charge of processing incoming events or messages from the UI process, perform the layout, initiate redraws of the page, etc. But as it’s locked in the JS loop, it won’t be able to perform any of those tasks, causing the web process to become unresponsive to user input or API calls that come through the UI process. There are other situations that could make the process unresponsive, but the execution of faulty JS is probably the most common one.

WebKit has some internal tools to detect these situations, that mainly consist on timeouts that mark the process as unresponsive when some expected reply is not received in time from the web process. But on WebKitGTK and WPE there wasn’t a way to notify the application that’s using the web view that the web process had become unresponsive, or a way to recover from this situation (other than closing the application or the tab). This is fixed in trunk for both ports by adding two components to the WebKitWebView class:

1. A new property named is-web-process-responsive: this property will signal responsiveness changes of the web process. The application using the web view can connect to the notifications of the object property as with any other GObject class, and can also get the its value using the new webkit_web_view_get_is_web_process_responsive() API method.
2. A new API method webkit_web_view_terminate_web_process() that can be used kill the web process when it becomes unresponsive (but will also work with responsive ones). Any load performed after this call will spawn a new and shiny web process. When this method is used to kill a web process, the web view will emit the signal web-process-terminated with WEBKIT_WEB_PROCESS_TERMINATED_BY_API as the termination reason.

With these changes, the browser can now connect to the is-web-process-responsive signal changes. If the web process becomes unresponsive, the browser can launch a dialog informing the user of the problem, and ask whether to wait or kill the process. If the user chooses to kill the process, the browser can use webkit_web_view_terminate_web_process() to kill the problematic process and then reload (or load a new page) to go back to functional state.

These changes, among other wonderful features we’re developing at Igalia, will be available on the upcoming 2.34 release of WebKitGTK and WPE. I hope they are useful for you

Happy coding!

Safari Technology Preview Release 126 is now available for download for macOS Big Sur and betas of macOS Monterey. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

Many of the new Safari 15 features are now available in Safari Technology Preview 126:

Streamlined tab bar. Use Tab Groups to save and organize your tabs. Experience the new design. Test your site. Experiment with theme-color.

Live Text. Select and interact with text in images on the web in macOS Monterey betas on M1 Macs.

Improved Safari Web Extensions. Try out the support for declarativeNetRequest, which expanded to 150K content blocking rules and non-persistent background pages for improved performance.

Quick Notes. Add links and Safari highlights to remember important information or ideas on the web in macOS Monterey betas.

WebGL 2. Try out the improved 3D graphics performance of WebGL running on top of Metal via ANGLE.

Web technologies. Experience and test the HTML, CSS, JavaScript, and other web technologies that are available in Safari 15 Beta and included in previous Safari Technology Preview releases.

If you see bugs or unexpected behavior with the interface of Safari Technology Preview, please file Feedback in Apple’s Feedback Assistant. If you come across an implementation bug in web technology, or have a request, please file a ticket at bugs.webkit.org.

UPDATE: If you downloaded an earlier version of Safari Technology Preview 126, you may need to reboot.

There’s a lot of news coming out of WWDC21 about WebKit and the web technology that’s shipping in Safari 15 on Apple’s platforms. Many of the new features were announced on Monday, at this year’s WWDC21 Keynote, and listed in the Safari 15 Beta Release Notes. But that’s not all, and we’re excited to share it with you.

Ten sessions at WWDC21 will go into greater detail and announce even more. New videos are released each day this week. You can watch them on the WWDC21 website, or in the Apple Developer app for macOS, iOS, iPadOS, and tvOS.

You can be part of the conversations around WWDC on the Apple Developer Forums, share your thoughts with @WebKit team on Twitter, or use other ways of staying in touch with folks involved in the WebKit project.

Tuesday, June 8

Meet Safari Web Extensions on iOS

Safari Web Extensions use HTML, CSS, and JavaScript to offer people powerful browser customizations — and you can now create them for every device that supports Safari. Learn how to build a Safari Web Extension that works for all devices, and discover how you can convert an existing extension to Safari through Xcode and the Safari Web Extension Converter.

Watch Meet Safari Web Extensions on iOS starting on Tuesday.

Wednesday, June 9

Explore Safari Web Extension Improvements

Learn how you can extend Safari’s functionality with Safari Web Extensions. We’ll introduce you to the latest WebExtension APIs, explore non-persistent background page support — a particularly relevant topic if you’re developing for iOS — and discover how you can use the Declarative Net Request WebExtensions API to block content on the web. Lastly, we’ll show you how to customize tabs in Safari 15.

Watch Explore Safari Web Extension Improvements starting on Wednesday.

Explore WKWebView Additions

Explore the latest updates to WKWebView. We’ll show you how to use APIs to manipulate web content without JavaScript, explore delegates that can help with WebRTC and Downloads, and share how you can easily create a richer web experience within your app.

Watch Explore WKWebView Additions starting on Wednesday.

Move beyond passwords

Despite their prevalence, passwords inherently come with challenges that make them poorly suited to securing someone’s online accounts. Learn more about the challenges passwords pose to modern security and how to move beyond them. Explore the next frontier in account security with secure-by-design, public-key-based credentials that use the Web Authentication standard. Discover in this technology preview how Apple is approaching this standard in iOS 15 and macOS Monterey.

Watch Move beyond passwords starting on Wednesday.

Secure login with iCloud Keychain verification codes

Learn how you can support on-device verification codes in your app or website for a more secure sign-in experience. We’ll explore the latest updates to the iCloud Keychain password manager and discover how verification codes, AutoFill, iCloud Keychain sync, and two-tap setup simplify the multi-step sign-in process. We’ll show you how to support this process in your apps and websites.

Watch Secure login with iCloud Keychain verification codes starting on Wednesday.

Thursday, June 10

Develop Advanced Web Content

Develop in JavaScript, WebGL, or WebAssembly? Learn how the latest updates to Safari and WebKit — including language changes to class syntax — can help simplify your development process, enhance performance, and improve security. We’ll explore several web APIs that can help provide better interoperability and bring new capabilities to your web content.

Watch Develop Advanced Web Content starting on Thursday.

Discover Web Inspector Improvements

Web Inspector provides the tools for you to understand and debug your web pages on macOS, iOS, and iPadOS. We’ll take you through the latest features and improvements to Web Inspector, including a new overlay for inspecting CSS Grid containers on your pages, even more configurable breakpoints to make debugging simpler, and the ability to create and edit Audits.

Watch Discover Web Inspector Improvements starting on Thursday.

Meet Privacy-Preserving Ad Attribution

Discover how you can measure your ad campaigns in apps and on the web without compromising privacy. We’ll introduce you to Private Click Measurement and explore SKAdNetwork, which provides you with a more secure, private, and useful way to measure your app installs.

Watch Meet Privacy-Preserving Ad Attribution starting on Thursday.

Friday, June 11

Design for Safari 15

Meet Safari 15: redesigned and ready to help people explore the web. Discover how you can approach designing websites and apps for Safari, and learn how to incorporate the tab bar in your designs. We’ll also take you through features like Live Text and accessibility best practices, explore the latest updates to CSS and Form Controls, and learn how to use the aspect-ratio property in CSS to create incredible websites.

Watch Design for Safari 15 starting on Friday.

Coordinate media playback in Safari with Group Activities

Create SharePlay experiences that people can enjoy on the web and in your companion app. Learn how you can use the GroupActivities framework in combination with a companion website to bring SharePlay to Safari, letting people connect with each other for enjoyable group interactions — even if they haven’t yet downloaded your app from the App Store.

Watch Coordinate media playback in Safari with Group Activities starting on Friday.

Today we are announcing an update to the MotionMark benchmark. This is a relatively small update, aimed at increasing test reliability and reproducibility. The largest change is the removal of the Focus subtest, which was causing significant variance in test results, and wasn’t measuring what it was intending to measure.

Benchmark Harness

Most of the changes in MotionMark 1.2 aim to reduce variance between multiple runs of the benchmark. We increased the warm-up time between each test by 1900ms and required at least 30 frames to be rendered in between tests to reduce interference between adjacent tests. Different tests stress different parts of the graphics pipeline, and their processing can overlap if they aren’t more strongly segmented.

We also implemented a few different strategies to decrease the benchmark’s sensitivity to individual frame times. The first is to make sure that the benchmark never makes any ramping decisions based on the time of a single frame, but instead requires at least 9 frames before adjusting complexity. In addition, the benchmark now discards outlier frame times.

Focus Subtest

Modern browsers use a compositing architecture, where part of the graphics work is responsible for drawing individual elements into layers, and other graphics work is responsible for compositing layers together into a final image. The interface between these two parts behaves differently in different browsers, and may indeed be entirely asynchronous, possibly providing almost no backpressure if the compositor is running more slowly than element painting.

In browser engines which run the compositor asynchronously (like WebKit), the Focus subtest measured how fast descriptions of work can be delivered to the compositor, rather than how fast the compositor can actually execute that work, which is what the subtest was trying to measure. In addition, the backpressure in the Focus subtest is indirect, passes through the scheduler, and is therefore noisy. It was causing a huge variance in subtest score on machines which have relatively high element painting performance compared to their compositor performance.

Conclusion

MotionMark 1.2 produces significantly less score variance than previous versions of MotionMark on a wide variety of machines of varying relative performance. Because of the removal of the Focus subtest, MotionMark 1.2 is also more reflective of real-world graphics performance across browsers.

ChangeLog

Here is a list of all the changes that have gone into MotionMark 1.2:

• [MotionMark] Controller.filterOutOutliers() sorts the frameLengths array incorrectly
• [MotionMark] Temporarily remove the focus test
• MotionMark scores are super sensitive to a single long frame
• MotionMark focus test can cause extreme variance in whichever test runs directly after it
• [MotionMark] Increase the warm-up time for each sub-test from 100ms to 1000ms
• MotionMark: add link to bug in about page
• MotionMark: ensure that timestamps are valid during warm up phase of tests

And again this is a new report about the work around :focus-visible in WebKit, you can check the previous ones at:

• January
• February
• March
• April

As you might already know this work is part of the Open Prioriziatation campaign by Igalia that has been funded by a lot of people. Thank you all for your support!

The high level summary is that the implementation in WebKit can be considered to be complete and all the :focus-visible patches have been included on the last Safari Technology Preview 125 as an experimental feature. Moreover, Igalia has been in conversations with Apple trying to find a way to enable the feature by default at some point.

Implementation details

As I’ve just mentioned, the implementation finished by the end of April, and no more patches have landed since then. It passes most of the WPT tests, there are still some minor differences here and there (like some input types matching or not :focus-visible) but those issues have been considered to be fine as they depend on the different browsers specific behavior.

You can test this feature in Safari Technology Preview (since release 125) by enabling the runtime flag in the menu (Develop > Experimental Features > :focus-visible pseudo-class). Please play with it and report any issue you might find.

Debate time

During the last patch reviews more Apple engineers got interested on the feature, and there were a bunch of discussions about whether it would (or should) change the default behavior in WebKit, and how.

So let’s start from the beginning, what is focus-visible? A broad description of :focus-visible is that it will match based on when the browser would natively show a focus ring. The typical example for this are buttons, in general when people click a button they don’t expect to see a focus ring, for that reason most browsers haven’t been showing it for years. When an element is focused browsers use some internal heuristics to decide when to show or not a focus ring.

However buttons in Safari are different to other browsers, and that’s because Safari follows the Mac platform conventions. Buttons are not click focusable in Safari (though you can still focus them via keyboard with Option + Tab), as they don’t receive focus on click they don’t even match :focus, so they never show a focus ring on mouse interactions. This behavior tries to mimic what happens on the Mac platform, but there are still some differences. The Mac platform standard, for example, allows that you can be editing an input, click on a button and keep editing the input as the focus is still there. However that’s not exactly what happens in Safari either, when you click the button, even if it doesn’t get the focus, the focus is gone from the input, so you cannot just continue editing it like in the platform. On top of that, an invisible navigation caret moves to that button on click, and further keyboard navigations start from there. So it’s kind of similar to the platform, but with some nuances.

This is only part of the problem, the web is full of things that are focusable, like <div tabindex="0"> elements. These elements have always matched (and still match) :focus by default, and have usually showed a focus ring when focused via mouse click. Web authors generally want to hide the focus ring when clicking on <div tabindex="0"> elements, and that’s why the current :focus-visible implementations don’t match in this case. Chrome and Firefox are using :focus-visible in the User Agent (UA) style sheet, so they don’t show a focus ring when clicking on such elements. However, Apple has expressed some concerns here that it might change the default focus indicator behavior in a way that might differ from their platform philosophy, and thus needs more review.

During these conversations an idea showed up as potential solution. What if we show a focus ring when users click on a generic <div tabindex="0">, but we don’t if that element has some specific role, e.g. <div tabindex="0" role="button">. This would give web authors the possibility to get their desired behavior by just adding a role to those elements.

This would make <div tabindex="0" role="button"> work similar to regular buttons on Mac, but there’s still one difference, those elements will still get the focus so some use cases might get broken. James Craig came out with a scenario in which an user is scrolling the page with the spacebar, then they click on a <div tabindex="0" role="button">, and if they enter spacebar again, that wouldn’t keep scrolling the page anymore. And the user won’t know exactly why, as they haven’t seen any focus ring after click (note that with the current :focus-visible implementation, they user will start to see a focus ring on that <div tabindex="0" role="button"> after entering the spacebar).

On that discussion James has shared an idea to add a new CSS property (or it could be a HTML attribute) that marks an element so it cannot receive focus via mouse click. That would make possible to make buttons work like in Safari in other browsers, or make a <div tabindex="0"> to work like a Mac button too. However this would be something new that would need to get implemented in all browsers, not just WebKit and that would need to get discussed and agreed with the web community.

On the same issue Brian Kardell is proposing some alternatives, for example having some special parameter like :focus-visible(platform) (syntax to be defined) that could behave differently in Safari than other browsers, so Safari can use it in the UA style sheet, while :focus-visible alone would work the same in all browsers.

As you see there’s not a clear solution to all this discussion yet, but we’re following it closely and providing our feedback to try to reach some final proposal that makes everyone happy.

Some numbers

Let’s do a final review of the total numbers (as nothing has changed in May):

• 26 PRs merged in WPT.
• 27 patches landed in WebKit.
• 9 patches landed in Chromium.
• 2 PRs merged in CSS spcs.
• 1 PR merged in HTML spec.

Wrapping up

:focus-visible has been added to WebKit thanks to the support from many individual people and organizations that make it happen through the Open Prioritization experiment by Igalia. Once more big thanks to you all! 🙏

In addition, the WPT test suite has been improved counting now ~40 tests for this feature. Also in January neither Firefox or Chrome were using :focus-visible on the UA style sheet, however they both use it there nowadays. Thus, doing the implementation on WebKit has helped to move forward this feature on different places.

There is still the ongoing discussion about when or how this could be enabled by default in WebKit and eventually shipped in Safari. That conversation is moving and we hope there’ll be some kind of positive resolution so this feature can be enjoyed by web authors in all the browser engines. Igalia will keep being on top of the topic and pushing things forward to make it happen.

Finally, thanks to everyone who has helped in the different conversations, reviews, etc. during these months.

Safari Technology Preview Release 125 is now available for download for macOS Big Sur and macOS Catalina. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

This release covers WebKit revisions 275811-277448.

Web Inspector

• Remote Inspection
  • Fixed an issue that prevented remotely inspecting iOS and iPadOS devices
• Sources Tab
  • Added support for panning and zooming image resources (r277279)
• Audit Tab
  • Fixed edits not saving if the text input was still focused when leaving Edit mode (r276616)
  • Fixed default and new test cases showing minified source (r276680, r277212)

CSS

• Added parsing for @counter-style descriptors (r276488)
• Added support for CSS display 2-value syntax (e.g. display: inline flex ) (r276293)
• Added support for inline-{start/end} values to float & clear CSS properties (r276216)
• Changed to not use margins when computing aspect ratio cross sizes (r277371)
• Changed invalid media query keyword values to not be parsable (r277039)
• Fixed treating border and padding correctly for box-sizing: border-box with aspect-ratio (r276745)
• Fixed flex item construction to not affect sibling flex item height computation (r277222, r277435)
• Fixed percent children to resolve against the flex basis on a fully inflexible item with fixed flex-basis (r276634)
• Fixed table layout disregarding the overriding width in CSS Flexbox (r276572)
• Fixed logical shorthands with var() (r276837)
• Fixed using a modifier key on an element causing it stop matching :focus-visible (r276698)
• Fixed CSS custom properties on pseudo-elements background gradients that caused infinite layout and high CPU load (r277112)
• Fixed position for orthogonally positioned element with writing-mode: vertical-rl (r277391)
• Improved parsing and computed style of the rotate CSS property (r276554)
• Shared style resolvers between author shadow trees with identical style (r276882)

Web Animations

• Added discrete animation support for border-image-repeat (r276465)
• Fixed interpolation of stroke-dasharray in the discrete case (r276643)
• Fixed interpolation of page-break- ** properties (r276638). Fixed animation of the visibility CSS property between hidden and collapse (r276639)
• Fixed interpolation of the clip CSS property (r276552)
• Fixed interpolation of the rotate CSS property (r276231)
• Support interpolation of the background-repeat shorthand (r276553)

WebAssembly

• Added call_ref instruction (r276896)

Storage

• Improved local storage size estimation for quota limitation (r276689)

Web API

• Fixed picture element to ignore any img descendant that is not a direct child (r276679)
• Fixed blob contentType being ignored when it contained a charset (r276986)
• Implemented <form>.requestSubmit() (r277257)
• Implemented FontFace in Workers for OffscreenCanvas (r276450)
• Implemented ShadowRoot.prototype.delegatesFocus attribute (r276585)
• Avoided error for a fetch body stream when its request or response is stopped (r277028)
• Changed to not compute image aspect ratios from width and height attributes for lazy loaded images (r276521)
• Fixed Notification.requestPermission() to return a Promise (r277420)

Rendering

• Fixed computed style for the translate CSS property to use px for the z value (r276551)
• Fixed will-change CSS property to create a containing block when the one of the specified properties may create one (r276627)
• Fixed sizing of CSS backgrounds affected by background-size and EXIF orientation (r276984)

WebRTC

• Fixed color gamut in WebRTC when using VPx software decoder (r276478)
• Set audio transceiver nMax to 1 (r276717)

This is the last post of the series showing interesting debugging tools, I hope you have found it useful. Don’t miss the custom scripts at the bottom to process GStreamer logs, help you highlight the interesting parts and find the root cause of difficult bugs. Here are also the previous posts of the series:

• GStreamer WebKit debugging tricks using GDB (1/2)
• GStreamer WebKit debugging tricks using GDB (2/2)
• GStreamer WebKit debugging by instrumenting source code (1/3)
• GStreamer WebKit debugging by instrumenting source code (2/3)
• GStreamer WebKit debugging by instrumenting source code (3/3)
• GStreamer WebKit debugging by using external tools (1/2)

How to debug pkgconfig

When pkg-config finds the PKG_CONFIG_DEBUG_SPEW env var, it explains all the steps used to resolve the packages:

PKG_CONFIG_DEBUG_SPEW=1 /usr/bin/pkg-config --libs x11

This is useful to know why a particular package isn’t found and what are the default values for PKG_CONFIG_PATH when it’s not defined. For example:

Adding directory '/usr/local/lib/x86_64-linux-gnu/pkgconfig' from PKG_CONFIG_PATH
Adding directory '/usr/local/lib/pkgconfig' from PKG_CONFIG_PATH
Adding directory '/usr/local/share/pkgconfig' from PKG_CONFIG_PATH
Adding directory '/usr/lib/x86_64-linux-gnu/pkgconfig' from PKG_CONFIG_PATH
Adding directory '/usr/lib/pkgconfig' from PKG_CONFIG_PATH
Adding directory '/usr/share/pkgconfig' from PKG_CONFIG_PATH

If we have tuned PKG_CONFIG_PATH, maybe we also want to add the default paths. For example:

SYSROOT=~/sysroot-x86-64
export PKG_CONFIG_PATH=${SYSROOT}/usr/local/lib/pkgconfig:${SYSROOT}/usr/lib/pkgconfig
# Add also the standard pkg-config paths to find libraries in the system
export PKG_CONFIG_PATH=${PKG_CONFIG_PATH}:/usr/local/lib/x86_64-linux-gnu/pkgconfig:\
/usr/local/lib/pkgconfig:/usr/local/share/pkgconfig:/usr/lib/x86_64-linux-gnu/pkgconfig:\
/usr/lib/pkgconfig:/usr/share/pkgconfig
# This tells pkg-config where the "system" pkg-config dir is. This is useful when cross-compiling for other
# architecture, to avoid pkg-config using the system .pc files and mixing host and target libraries
export PKG_CONFIG_LIBDIR=${SYSROOT}/usr/lib
# This could have been used for cross compiling:
#export PKG_CONFIG_SYSROOT_DIR=${SYSROOT}

Man in the middle proxy for WebKit

Sometimes it’s useful to use our own modified/unminified files with a 3rd party service we don’t control. Mitmproxy can be used as a man-in-the-middle proxy, but I haven’t tried it personally yet. What I have tried (with WPE) is this:

1. Add an /etc/hosts entry to point the host serving the files we want to change to an IP address controlled by us.
2. Configure a web server to provide the files in the expected path.
3. Modify the ResourceRequestBase constructor to change the HTTPS requests to HTTP when the hostname matches the target:

ResourceRequestBase(const URL& url, ResourceRequestCachePolicy policy)
    : m_url(url)
    , m_timeoutInterval(s_defaultTimeoutInterval)
    ...
    , m_isAppBound(false)
{
    if (m_url.host().toStringWithoutCopying().containsIgnoringASCIICase(String("out-of-control-service.com"))
        && m_url.protocol().containsIgnoringASCIICase(String("https"))) {
        printf("### %s: URL %s detected, changing from https to http\n",
            __PRETTY_FUNCTION__, m_url.string().utf8().data()); 
        fflush(stdout);
        m_url.setProtocol(String("http"));
    }
}

:bulb: Pro tip: If you have to debug minified/obfuscated JavaScript code and don’t have a deobfuscated version to use in a man-in-the-middle fashion, use http://www.jsnice.org/ to deobfuscate it and get meaningful variable names.

Bandwidth control for a dependent device

If your computer has a “shared internet connection” enabled in Network Manager and provides access to a dependent device , you can control the bandwidth offered to that device. This is useful to trigger quality changes on adaptive streaming videos from services out of your control.

This can be done using tc, the Traffic Control tool from the Linux kernel. You can use this script to automate the process (edit it to suit to your needs).

Useful scripts to process GStreamer logs

I use these scripts in my daily job to look for strange patterns in GStreamer logs that help me to find the cause of the bugs I’m debugging:

• h: Highlights each expression in the command line in a different color.
• mgrep: Greps (only) for the lines with the expressions in the command line and highlights each expression in a different color.
• filter-time: Gets a subset of the log lines between a start and (optionally) an end GStreamer log timestamp.
• highlight-threads: Highlights each thread in a GStreamer log with a different color. That way it’s easier to follow a thread with the naked eye.
• remove-ansi-colors: Removes the color codes from a colored GStreamer log.
• aha: ANSI-HTML-Adapter converts plain text with color codes to HTML, so you can share your GStreamer logs from a web server (eg: for bug discussion). Available in most distros.
• gstbuffer-leak-analyzer: Analyzes a GStreamer log and shows unbalances in the creation/destruction of GstBuffer and GstMemory objects.

In this new post series, I’ll show you how both existing and ad-hoc tools can be helpful to find the root cause of some problems. Here are also the older posts of this series in case you find them useful:

• GStreamer WebKit debugging tricks using GDB (1/2)
• GStreamer WebKit debugging tricks using GDB (2/2)
• GStreamer WebKit debugging by instrumenting source code (1/3)
• GStreamer WebKit debugging by instrumenting source code (2/3)
• GStreamer WebKit debugging by instrumenting source code (3/3)

Use strace to know which config/library files are used by a program

If you’re becoming crazy supposing that the program should use some config and it seems to ignore it, just use strace to check what config files, libraries or other kind of files is the program actually using. Use the grep rules you need to refine the search:

$ strace -f -e trace=%file nano 2> >(grep 'nanorc')
access("/etc/nanorc", R_OK)             = 0
access("/usr/share/nano/javascript.nanorc", R_OK) = 0
access("/usr/share/nano/gentoo.nanorc", R_OK) = 0
...

Know which process is killing another one

First, try to strace -e trace=signal -p 1234 the killed process.

If that doesn’t work (eg: because it’s being killed with the uncatchable SIGKILL signal), then you can resort to modifying the kernel source code (signal.c) to log the calls to kill():

SYSCALL_DEFINE2(kill, pid_t, pid, int, sig)
{
    struct task_struct *tsk_p;
    ...
    /* Log SIGKILL */
    if (sig & 0x1F == 9) {
        tsk_p = find_task_by_vpid(pid);

        if (tsk_p) {
            printk(KERN_DEBUG "Sig: %d from pid: %d (%s) to pid: %d (%s)\n",
                sig, current->pid, current->comm, pid, tsk_p->comm);
        } else {
            printk(KERN_DEBUG "Sig: %d from pid: %d (%s) to pid: %d\n",
                sig, current->pid, current->comm, pid);
        }
    }
    ...
}

Wrap gcc/ld/make to tweak build parameters

If you ever find yourself with little time in front of a stubborn build system and, no matter what you try, you can’t get the right flags to the compiler, think about putting something (a wrapper) between the build system and the compiler. Example for g++:

#!/bin/bash
main() {
    # Build up arg[] array with all options to be passed
    # to subcommand.
    i=0
    for opt in "$@"; do
        case "$opt" in
        -O2) ;; # Removes this option
        *)
            arg[i]="$opt" # Keeps the others
            i=$((i+1))
            ;;
        esac
    done
    EXTRA_FLAGS="-O0" # Adds extra option
    echo "g++ ${EXTRA_FLAGS} ${arg[@]}" # >> /tmp/build.log # Logs the command
    /usr/bin/ccache g++ ${EXTRA_FLAGS} "${arg[@]}" # Runs the command
}
main "$@"

Make sure that the wrappers appear earlier than the real commands in your PATH.

The make wrapper can also call remake instead. Remake is fully compatible with make but has features to help debugging compilation and makefile errors.

Analyze the structure of MP4 data

The ISOBMFF Box Structure Viewer online tool allows you to upload an MP4 file and explore its structure.

This is the last post on the instrumenting source code series. I hope you to find the tricks below as useful as the previous ones.

In this post I show some more useful debugging tricks. Don’t forget to have a look at the other posts of the series:

• GStreamer WebKit debugging tricks using GDB (1/2)
• GStreamer WebKit debugging tricks using GDB (2/2)
• GStreamer WebKit debugging by instrumenting source code (1/3)
• GStreamer WebKit debugging by instrumenting source code (2/3)

Finding memory leaks in a RefCounted subclass

The source code shown below must be placed in the .h where the class to be debugged is defined. It’s written in a way that doesn’t need to rebuild RefCounted.h, so it saves a lot of build time. It logs all refs, unrefs and adoptPtrs, so that any anomaly in the refcounting can be traced and investigated later. To use it, just make your class inherit from LoggedRefCounted instead of RefCounted.

Example output:

void WTF::adopted(WTF::LoggedRefCounted<T>*) [with T = WebCore::MediaSourceClientGStreamerMSE]: this=0x673c07a4, refCount 1
void WTF::adopted(WTF::LoggedRefCounted<T>*) [with T = WebCore::MediaSourceClientGStreamerMSE]: this=0x673c07a4, refCount 1
^^^ Two adopts, this is not good.
void WTF::LoggedRefCounted<T>::ref() [with T = WebCore::MediaSourceClientGStreamerMSE]: this=0x673c07a4, refCount 1 --> ...
void WTF::LoggedRefCounted<T>::ref() [with T = WebCore::MediaSourceClientGStreamerMSE]: this=0x673c07a4, refCount ... --> 2
void WTF::LoggedRefCounted<T>::deref() [with T = WebCore::MediaSourceClientGStreamerMSE]: this=0x673c07a4, refCount 2 --> ...
void WTF::LoggedRefCounted<T>::deref() [with T = WebCore::MediaSourceClientGStreamerMSE]: this=0x673c07a4, refCount ... --> 1
void WTF::adopted(WTF::LoggedRefCounted<T>*) [with T = WebCore::MediaSourceClientGStreamerMSE]: this=0x673c07a4, refCount 1
void WTF::LoggedRefCounted<T>::deref() [with T = WebCore::MediaSourceClientGStreamerMSE]: this=0x673c07a4, refCount 1 --> ...
void WTF::LoggedRefCounted<T>::deref() [with T = WebCore::MediaSourceClientGStreamerMSE]: this=0x673c07a4, refCount 1 --> ...
^^^ Two recursive derefs, not good either.

#include "Logging.h"

namespace WTF {

template<typename T> class LoggedRefCounted : public WTF::RefCounted<T> {
    WTF_MAKE_NONCOPYABLE(LoggedRefCounted); WTF_MAKE_FAST_ALLOCATED;
public:
    void ref() {
        printf("%s: this=%p, refCount %d --> ...\n", __PRETTY_FUNCTION__, this, WTF::RefCounted<T>::refCount()); fflush(stdout);
        WTF::RefCounted<T>::ref();
        printf("%s: this=%p, refCount ... --> %d\n", __PRETTY_FUNCTION__, this, WTF::RefCounted<T>::refCount()); fflush(stdout);
    }

    void deref() {
        printf("%s: this=%p, refCount %d --> ...\n", __PRETTY_FUNCTION__, this, WTF::RefCounted<T>::refCount()); fflush(stdout);
        WTF::RefCounted<T>::deref();
        printf("%s: this=%p, refCount ... --> %d\n", __PRETTY_FUNCTION__, this, WTF::RefCounted<T>::refCount()); fflush(stdout);
    }

protected:
    LoggedRefCounted() { }
    ~LoggedRefCounted() { }
};

template<typename T> inline void adopted(WTF::LoggedRefCounted<T>* object)
{
    printf("%s: this=%p, refCount %d\n", __PRETTY_FUNCTION__, object, (object)?object->refCount():0); fflush(stdout);
    adopted(static_cast<RefCountedBase*>(object));
}

} // Namespace WTF

Pause WebProcess on launch

WebProcessMainGtk and WebProcessMainWPE will sleep for 30 seconds if a special environment variable is defined:

export WEBKIT2_PAUSE_WEB_PROCESS_ON_LAUNCH=1

It only works #if ENABLE(DEVELOPER_MODE), so you might want to remove those ifdefs if you’re building in Release mode.

Log tracers

In big pipelines (e.g. playbin) it can be very hard to find what element is replying to a query or handling an event. Even using gdb can be extremely tedious due to the very high level of recursion. My coworker Alicia commented that using log tracers is more helpful in this case.

GST_TRACERS=log enables additional GST_TRACE() calls all accross GStreamer. The following example logs entries and exits into the query function.

GST_TRACERS=log GST_DEBUG='query:TRACE'

The names of the logging categories are somewhat inconsistent:

• log (the log tracer itself)
• GST_BUFFER
• GST_BUFFER_LIST
• GST_EVENT
• GST_MESSAGE
• GST_STATES
• GST_PADS
• GST_ELEMENT_PADS
• GST_ELEMENT_FACTORY
• query
• bin

The log tracer code is in subprojects/gstreamer/plugins/tracers/gstlog.c.

Safari Technology Preview Release 124 is now available for download for macOS Big Sur and macOS Catalina. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

This release covers WebKit revisions 274641-275811.

Web Inspector

• Added autocomplete for experimental CSS Color values: hwb, lch, lab, color-mix, color-contrast (r275310)
• Changed grid overlay track size labels to show implicit auto value and no computed size (r275559)
• Fixed grid layout labels that were getting drawn outside the viewport (r275128)
• Fixed CSS Grid overlay track sizes when inline styles are applied to the element (r275293)
• Fixed a bug with more than two timeline recordings not showing a timescale (r275337)
• Fixed grid overlay areas appearing offset from their actual areas when the grid container has a border set (r275529)
• Fixed grid overlay to honor writing modes and RTL layout direction. (r275519)
• Fixed grid overlay line numbers showing implicit tracks with negative line numbers (r275558)
• Improved grid overlay label appearance (r275560)
• Removed the duplicate Box Model section from Layout panel in Elements Tab (r275545)

CSS

• Accounted for cover and contain when interpolating background-size (r275202)
• Accounted for hanging and each-line when blending text-interpolation (r275224)
• Added support for animating the vertical-align CSS property (r275160)
• Animated pseudo element style resolved against wrong parent style (r275277)
• Fixed interpolation of the caret-color CSS property (r275092)
• Computed style for a border-radius corner should never be 0px when the provided width isn’t 0px (r275273)
• Enabled hanging and each-line keywords for the text-indent CSS property (r275199)
• Fixed align-content issues in Flexbox (r275416)
• Fixed max-height percentages getting wrongly resolved for replaced grid items in nested percentage flexboxes (r275758)
• Fixed min and max widths of grid affected by ancestor (r275754)
• Fixed initial horizontal scrollbar position when vertical scrollbar is on the left (r275811)
• Fixed max-content on tables with percentage cell widths (r275462)
• Improved interpolation of the shape-outside CSS property (r275015)
• Prevented negative heights in CSS Grid (r274933)
• Supported animation of the tab-size CSS property (r274939)
• Updated CSS Color 5 color-mix() implementation to match the latest draft spec (r274947)

JavaScript

• Fixed Intl.Locale to not assume is8Bit (r274784)
• Fixed Object.freeze(this) at the global scope to not lose a reference to a WatchpointSet (r274882)
• Fixed RegExp interpreter not to match against non-BMP characters with multiple dots (r274806, r274945)
• Fixed incorrect Array toString() if join() is not callable (r275544)

Web API

• Enabled the ability to prevent scrolling in Element.focus() (r274812)
• Implemented AbortSignal.abort() (r274773)
• Propagated user gestures through requestAnimationFrame just like setTimeout (r275187)
• ServiceWorker should save module scripts (r275751)

Rendering

• Fixed aspect-ratio to recompute on hover (r275377)
• Implemented text rendering on OffscreenCanvas in a Worker (r275420)

Wheel Events

• Allowed wheel events to trigger high frequency DisplayLinks (r275440)

Web Driver

• Fixed SendKeys on <input type="file"> returning element not found in some cases (r275050)

WebGL

• Enabled Metal ANGLE backend for WebGL (r274927)

WebRTC

• Implemented RTCDataChannel transfer (r274758)

WebCrypto

• Fixed WebCrypto to support AES-GCM 0 byte encryption (r275535)

Scrolling

• Fixed scrolling momentum with scroll-snap-type: x mandatory when the scroller scrolls vertically (r274853)
• Fixed scroll-snap-stop: always not respected during momentum scrolling (r274726)

Web Extensions

• Allow wss:// URL in content_security_policy to allow extension pages to use WebSocket connections

A new report after a new month is gone, you can see the previous ones at:

• January
• February
• March

Again this is a status report about the work Igalia is doing on the implementation of :focus-visible in WebKit, which is part of the Open Prioriziatation campaign. Thanks everyone supporting this!

There has been some nice progress in April, though some things are still under ongoing discussion.

Script focus and :focus-visible

Finally we decided to reflect the reality in the script focus tests that I created, and merge them on WPT. The ones where the implementations Chromium and Firefox don’t match the agreed expectations (the ones when you click a non-focusable element, and that click moves focus elsewhere), where marked as .tentative.

So we opened a separated issue to explain the situation and gather more feedback about what to do here.

Once we had the tests I implemented the same behavior as other browsers, the current one reflected on the tests, in WebKit. The patch got reviewed and merged, so script focus and :focus-visible work the same in all browsers right now.

:focus-visible and Shadow DOM

The test that checks that :focus-visible doesn’t match on ShadowRoot was also merged in WPT. That’s the current behavior on WebKit implementation too. More about this in January’s post.

Implementation details

There was a crash in WebKit due to my initial implementation of script focus, that problem has been already fixed. Also an extra bug was found and fixed too.

On the review of those patches, some new discussion started about different things related to :focus-visible feature, like why a keyboard input triggers :focus-visible matching. The discussion with Apple engineers is ongoing on the bug and let’s see how it ends.

Some numbers

Let’s take a look to the numbers again:

• 26 PRs merged in WPT (5 in April).
• 27 patches landed in WebKit (10 in April).
• 9 patches landed in Chromium (2 in April).
• 2 PRs merged in CSS spcs.
• 1 PR merged in HTML spec.

Next steps

Implementation is mostly over, now the goal is to close the discussions with the different parties and check the possibilities of shipping this in WebKit.

Thanks everyone that has provided input in the different discussions and jumped on the patches review. Your feedback has been really useful to keep moving this forward.

Stay tuned!

In this post I show some more useful debugging tricks. Check also the other posts of the series:

• GStreamer WebKit debugging tricks using GDB (1/2)
• GStreamer WebKit debugging tricks using GDB (2/2)
• GStreamer WebKit debugging by instrumenting source code (1/3)

Print current thread id

The thread id is generated by Linux and can take values higher than 1-9, just like PIDs. This thread number is useful to know which function calls are issued by the same thread, avoiding confusion between threads.

#include <stdio.h>
#include <unistd.h>
#include <sys/syscall.h>

printf("%s [%d]\n", __PRETTY_FUNCTION__, syscall(SYS_gettid));
fflush(stdout);

Debug GStreamer thread locks

We redefine the GST_OBJECT_LOCK/UNLOCK/TRYLOCK macros to print the calls, compare locks against unlocks, and see who’s not releasing its lock:

#include "wtf/Threading.h"
#define GST_OBJECT_LOCK(obj) do { \
  printf("### [LOCK] %s [%p]\n", __PRETTY_FUNCTION__, &Thread::current()); fflush(stdout); \
  g_mutex_lock(GST_OBJECT_GET_LOCK(obj)); \
} while (0)
#define GST_OBJECT_UNLOCK(obj) do { \
  printf("### [UNLOCK] %s [%p]\n", __PRETTY_FUNCTION__, &Thread::current()); fflush(stdout); \
  g_mutex_unlock(GST_OBJECT_GET_LOCK(obj)); \
} while (0)
#define GST_OBJECT_TRYLOCK(obj) ({ \
  gboolean result = g_mutex_trylock(GST_OBJECT_GET_LOCK(obj)); \
  if (result) { \
   printf("### [LOCK] %s [%p]\n", __PRETTY_FUNCTION__, &Thread::current()); fflush(stdout); \
  } \
  result; \
})

Warning: The statement expression that allows the TRYLOCK macro to return a value will only work on GCC.

There’s a way to know which thread has taken a lock in glib/GStreamer using gdb. First locate the stalled thread:

(gdb) thread 
(gdb) bt
#2  0x74f07416 in pthread_mutex_lock ()
#3  0x7488aec6 in gst_pad_query ()
#4  0x6debebf2 in autoplug_query_allocation ()

(gdb) frame 3
#3  0x7488aec6 in gst_pad_query (pad=pad@entry=0x54a9b8, ...)
4058        GST_PAD_STREAM_LOCK (pad);

Now get the process id (PID) and use the pthread_mutex_t structure to print the Linux thread id that has acquired the lock:

(gdb) call getpid()
$30 = 6321
(gdb) p ((pthread_mutex_t*)pad.stream_rec_lock.p)->__data.__owner
$31 = 6368
(gdb) thread find 6321.6368
Thread 21 has target id 'Thread 6321.6368'

Trace function calls (poor developer version)

If you’re using C++, you can define a tracer class. This is for webkit, but you get the idea:

#define MYTRACER() MyTracer(__PRETTY_FUNCTION__);
class MyTracer {
public:
    MyTracer(const gchar* functionName)
      : m_functionName(functionName) {
      printf("### %s : begin %d\n", m_functionName.utf8().data(), currentThread()); fflush(stdout);
    }
    virtual ~MyTracer() {
        printf("### %s : end %d\n", m_functionName.utf8().data(), currentThread()); fflush(stdout);
    }
private:
    String m_functionName;
};

And use it like this in all the functions you want to trace:

void somefunction() {
  MYTRACER();
  // Some other code...
}

The constructor will log when the execution flow enters into the function and the destructor will log when the flow exits.

Setting breakpoints from C

In the C code, just call raise(SIGINT) (simulate CTRL+C, normally the program would finish).

And then, in a previously attached gdb, after breaking and having debugging all you needed, just continue the execution by ignoring the signal or just plainly continuing:

(gdb) signal 0
(gdb) continue

There’s a way to do the same but attaching gdb after the raise. Use raise(SIGSTOP) instead (simulate CTRL+Z). Then attach gdb, locate the thread calling raise and switch to it:

(gdb) thread apply all bt
[now search for "raise" in the terminal log]
Thread 36 (Thread 1977.2033): #1 0x74f5b3f2 in raise () from /home/enrique/buildroot/output2/staging/lib/libpthread.so.0
(gdb) thread 36

Now, from a terminal, send a continuation signal: kill -SIGCONT 1977. Finally instruct gdb to single-step only the current thread (IMPORTANT!) and run some steps until all the raises have been processed:

(gdb) set scheduler-locking on
(gdb) next    // Repeat several times...

Know the name of a GStreamer function stored in a pointer at runtime

Just use this macro:

GST_DEBUG_FUNCPTR_NAME(func)

Detecting memory leaks in WebKit

RefCountedLeakCounter is a tool class that can help to debug reference leaks by printing this kind of messages when WebKit exits:

  LEAK: 2 XMLHttpRequest
  LEAK: 25 CachedResource
  LEAK: 3820 WebCoreNode

To use it you have to modify the particular class you want to debug:

• Include wtf/RefCountedLeakCounter.h
• DEFINE_DEBUG_ONLY_GLOBAL(WTF::RefCountedLeakCounter, myClassCounter, ("MyClass"));
• In the constructor: myClassCounter.increment()
• In the destructor: myClassCounter.decrement()

Safari 14.1 for macOS Big Sur, iPadOS 14.5, and iOS 14.5 brings new WebKit features, APIs, performance improvements, and improved compatibility for web developers. Take a look.

Flexbox Gap Support

Safari 14.1 now supports the gap property inside Flexbox containers, along with row-gap and column-gap. Gaps in Flexbox make it possible for web developers to create space between Flex items without resorting to annoying margin hacks.

The gap property, of course, has worked inside Grid containers since Safari 12. Because gap is supported for Grid, testing support for the property in a Flexbox formatting context wasn’t possible by using feature queries (@supports). By adding support for gap in Flexbox, Safari brings the web closer to widespread compatibility.

For more information, see the “flex containers” definition in the “Row and Column Gutters” section of the CSS Box Alignment specification.

Date & Time Inputs on macOS

In HTML, the date, time, datetime-local attributes for the input element prompt the browser to create date and/or time controls — an interface that’s designed to let the user easily enter a time or a date, usually with a calendar. Safari has supported these input fields on iOS since 2012. Now with Safari 14.1, these fields are supported on macOS as well.

CSS Individual Transform Properties

With WebKit support of Individual Transform Properties, web developers can write CSS rules and keyframe animations in a more straightforward way.

For years, the transform property has provided the ability to scale, rotate, and translate. You could access this power through code like this:

transform: translate(100px, 100px) rotate(180deg) scale(2);

Now, if you wish, you can instead write:

translate: 100px 100px;
rotate: 180deg;
scale: 2;

This is a syntactical and conceptual difference — the result is the same. You might find it easier to understand and remember.

This syntax also avoids unintentional overrides of other transform-related properties and eliminates pre-computing intermediate values when using keyframe animations.

You can learn more by reading “CSS Individual Transform Properties” on the WebKit blog.

Paint Timing API

A valuable metric to improving the performance of web content is the time it takes for the user-agent to show something to the user. WebKit added the Paint Timing API to its suite of performance APIs to provide this measurement. Developers can measure:

• first-paint for the time it takes to show pixels of anything that is not the user-agent’s default background
• first-contentful-paint to get the time for the user to see content such as text or an image

To learn more about the API, see the Paint Timing specification.

Web Speech API

The Web Speech API in WebKit has supported speech synthesis for some time. Now, Safari supports speech recognition powered by the same speech engine as Siri. That means web developers can enjoy the benefits of high-quality transcription for over 50 languages and dialects. Note that users will need Siri enabled in System Preferences on macOS or Settings in iOS or iPadOS for the API to be available to be used.

For more information on speech recognition and speech synthesis on the web, see the Web Speech API specification.

Web Audio API

As a continuing area of focus, Safari compatibility improvements are ongoing. Updates to the Web Audio API bring it to standards compliance. It is now available unprefixed with support for advanced audio processing via Audio Worklets.

You can learn more about web audio from the Web Audio API specification.

Interoperability Improvements

There are several new interoperability improvements in WebKit:

• Web Animations now work on 122 more properties
• Animation of pseudo-elements beyond ::before and ::after.
• Improved mouse support on iPadOS and in Catalyst apps, including wheel events and hover/pointer media queries

Updated wheel Event handling improves performance and interoperability with other browsers. Wheel handlers registered on root objects (window/document/body) with default arguments will be treated as passive. Pages that want to prevent the default handling of Wheel Events which result from gestures like trackpad swipes on macOS, must now call preventDefault() on the first Wheel Event in the sequence.

MediaRecorder API

WebKit added support for MediaStream Recording, also known as the MediaRecorder API. It allows websites to record audio and video, then encode them using the platform’s available set of default encodings.

Learn more in the MediaStream Recording specification.

WebM Support

WebKit added improved support for WebM media. With Safari 14, WebKit added support for WebM via MSE on iPadOS and macOS. Now, WebKit on macOS supports WebM files containing VP8 or VP9 video tracks and Vorbis audio tracks. Developers can now offer WebM content to users, though users will enjoy the best quality and power efficiency with h.264 or HEVC.

See the WebM Project for details.

JavaScript Improvements

Class Fields

Updates to the JavaScript engine in WebKit adds new support for private class fields to enforce restrictions for static and instance fields in ES6 classes. Developers that used conventions before can switch to built-in support to manage access to properties. Public static class fields are also available, adding to the previously supported public instance class fields.

To learn more, see the public and private instance field proposal.

Internationalization API

New Internationalization API features include Intl.DisplayNames, Intl.ListFormat, and Intl.Segmenter. Intl.DateTimeFormat was updated to support dateStyle and timeStyle options. The Intl.NumberFormat method was updated with support to display measurement units, notation formats, sign display, and narrow symbol currency formatting.

For more information on these formatting methods, see the proposals for Intl.DisplayNames, Intl.ListFormat, Intl.Segmenter, Intl.DateTimeFormat, and Intl.NumberFormat.

WeakRef and FinalizationRegistry

WeakRef supports holding an object that can be garbage collected when there are no strong references to it. The FinalizationRegistry object compliments WeakRef to manage cleanup tasks when a target object is garbage collected.

Read more details in the WeakRefs proposal.

WebAssembly

WebAssembly support, introduced with Safari 11, is a low-level binary format used as a compilation target for existing languages.

Threading

WebAssembly support for the atomic instructions in the Threading specification, are enabled in Safari 14.1. Note, that until Safari supports the COEP/COOP headers, shared memory is not enabled as it could expose users to cross-origin Specter data leaks.

For more information, see the WebAssembly Specification for WASM Threads.

WebAssembly Sign Extension Operator

New sign-extension operator support preserves the number’s sign while extending the number of bits of an integer.

Learn more in the Sign-extension Ops proposal.

JavaScript BigInt Integration

Support for a new JavaScript API allows bidirectional conversion of a JavaScript BigInt value to a WASM 64-bit integer.

See the WebAssembly Specification for toJSValue.

Private Click Measurement

This release features Private Click Measurement – a proposed web standard that enables advertisers to measure the effectiveness of click-through ad campaigns in a privacy-preserving way. This new technology is part of a larger effort to remove cross-site tracking from the web and provide privacy-preserving alternatives where needed.

See “Introducing Private Click Measurement, PCM” on the WebKit blog.

Storage Access API Updates

WebKit has improved the Storage Access API to allow per-page storage access and allow nested iframes to request storage access. These interoperability changes are from the ongoing standardization of the Storage Access API together with Mozilla, Microsoft, and the web community. This API has shipped in Safari since 2018 and is part of a larger effort to remove cross-site tracking from the web and provide privacy-preserving alternatives where needed.

For details, see “Updates to the Storage Access API” on the WebKit blog.

Web Inspector Updates

The updates to Web Inspector available in these releases include:

• A new three-panel layout in the Elements Tab brings the Styles sidebar into an independent panel alongside the existing details sidebar.
• The new Font panel gives content authors visibility into details of the fonts used on the page.
• Breakpoints in the Sources Tab can now be configured with conditions or actions, reducing the need for stray console.log statements left in production code.

To learn more about Web Inspector features, see the Web Inspector Reference documentation.

Availability

These improvements are available to users running Safari on iPadOS 14.5, iOS 14.5, or Safari 14.1 on macOS Big Sur (11.3), macOS Catalina, or macOS Mojave. These features were also available to web developers in Safari Technology Preview releases. Changes in this release of Safari were included in the following Safari Technology Preview releases: 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122.

Download the latest Safari Technology Preview release to stay at the forefront of future web platform and Web Inspector features. You can also use the WebKit Feature Status page to watch for changes to web platform features you’re interested in.

Feedback

If you run into any issues, we welcome your bug reports for Safari or WebKit bugs for web content issues. Send us a tweet @webkit to share your thoughts on this release.

This is the continuation of the GStreamer WebKit debugging tricks post series. In the next three posts, I’ll focus on what we can get by doing some little changes to the source code for debugging purposes (known as “instrumenting”), but before, you might want to check the previous posts of the series:

• GStreamer WebKit debugging tricks using GDB (1/2)
• GStreamer WebKit debugging tricks using GDB (2/2)

Know all the env vars read by a program by using LD_PRELOAD to intercept libc calls

// File getenv.c
// To compile: gcc -shared -Wall -fPIC -o getenv.so getenv.c -ldl
// To use: export LD_PRELOAD="./getenv.so", then run any program you want
// See http://www.catonmat.net/blog/simple-ld-preload-tutorial-part-2/

#define _GNU_SOURCE

#include <stdio.h>
#include <dlfcn.h>

// This function will take the place of the original getenv() in libc
char *getenv(const char *name) {
 printf("Calling getenv(\"%s\")\n", name);

 char *(*original_getenv)(const char*);
 original_getenv = dlsym(RTLD_NEXT, "getenv");

 return (*original_getenv)(name);
}

See the breakpoints with command example to know how to get the same using gdb. Check also Zan’s libpine for more features.

Track lifetime of GObjects by LD_PRELOADing gobject-list

The gobject-list project, written by Thibault Saunier, is a simple LD_PRELOAD library for tracking the lifetime of GObjects. When loaded into an application, it prints a list of living GObjects on exiting the application (unless the application crashes), and also prints reference count data when it changes. SIGUSR1 or SIGUSR2 can be sent to the application to trigger printing of more information.

Overriding the behaviour of a debugging macro

The usual debugging macros aren’t printing messages? Redefine them to make what you want:

#undef LOG_MEDIA_MESSAGE
#define LOG_MEDIA_MESSAGE(...) do { \
  printf("LOG %s: ", __PRETTY_FUNCTION__); \
  printf(__VA_ARGS__); \
  printf("\n"); \
  fflush(stdout); \
} while(0)

This can be done to enable asserts on demand in WebKit too:

#undef ASSERT
#define ASSERT(assertion) \
  (!(assertion) ? \
      (WTFReportAssertionFailure(__FILE__, __LINE__, WTF_PRETTY_FUNCTION, #assertion), \
       CRASH()) : \
      (void)0)

#undef ASSERT_NOT_REACHED
#define ASSERT_NOT_REACHED() do { \
  WTFReportAssertionFailure(__FILE__, __LINE__, WTF_PRETTY_FUNCTION, 0); \
  CRASH(); \
} while (0)

It may be interesting to enable WebKit LOG() and GStreamer GST_DEBUG() macros only on selected files:

#define LOG(channel, msg, ...) do { \
  printf("%s: ", #channel); \
  printf(msg, ## __VA_ARGS__); \
  printf("\n"); \
  fflush(stdout); \
} while (false)

#define _GST_DEBUG(msg, ...) do { \
  printf("### %s: ", __PRETTY_FUNCTION__); \
  printf(msg, ## __VA_ARGS__); \
  printf("\n"); \
  fflush(stdout); \
} while (false)

Note all the preprocessor trickery used here:

• First arguments (channel, msg) are captured intependently
• The remaining args are captured in __VA_ARGS__
• do while(false) is a trick to avoid {braces} and make the code block work when used in if/then/else one-liners
• #channel expands LOG(MyChannel,....) as printf("%s: ", "MyChannel"). It’s called “stringification”.
• ## __VA_ARGS__ expands the variable argument list as a comma-separated list of items, but if the list is empty, it eats the comma after “msg”, preventing syntax errors

Print the compile-time type of an expression

Use typeid(<expression>).name(). Filter the ouput through c++filt -t:

std::vector<char *> v; 
printf("Type: %s\n", typeid(v.begin()).name());

Abusing the compiler to know all the places where a function is called

If you want to know all the places from where the GstClockTime toGstClockTime(float time) function is called, you can convert it to a template function and use static_assert on a wrong datatype like this (in the .h):

template <typename T = float> GstClockTime toGstClockTime(float time) { 
  static_assert(std::is_integral<T>::value,
    "Don't call toGstClockTime(float)!");
  return 0;
}

Note that T=float is different to integer (is_integral). It has nothing to do with the float time parameter declaration.

You will get compile-time errors like this on every place the function is used:

WebKitMediaSourceGStreamer.cpp:474:87:   required from here
GStreamerUtilities.h:84:43: error: static assertion failed: Don't call toGstClockTime(float)!

Use pragma message to print values at compile time

Sometimes is useful to know if a particular define is enabled:

#include <limits.h>

#define _STR(x) #x
#define STR(x) _STR(x)

#pragma message "Int max is " STR(INT_MAX)

#ifdef WHATEVER
#pragma message "Compilation goes by here"
#else
#pragma message "Compilation goes by there"
#endif

...

The code above would generate this output:

test.c:6:9: note: #pragma message: Int max is 0x7fffffff
 #pragma message "Int max is " STR(INT_MAX)
         ^~~~~~~
test.c:11:9: note: #pragma message: Compilation goes by there
 #pragma message "Compilation goes by there"
         ^~~~~~~

As the first quarter of 2021 has aready come to a close, we reckon it’s time to recap our achievements from the second half of 2020, and update you on the improvements we have been making to the multimedia experience on the Web and Linux in general.

Our previous reports:

• 2018/H2
• 2019/H1
• 2019/H2
• 2020/H1

WPE / WebKitGTK

We have closed ~100 issues related with multimedia in WebKitGTK/WPE, such as fixed seek issues while playback, plugged memory leaks, gardening tests, improved Flatpak-based developing work-flow, enabled new codecs, etc.. Overall, we improved a bit the multimedia’s user experience on these Webkit engine ports.

To highlight a couple tasks, we did some maintenance work on WebAudio backends, and we upstreamed an internal audio mixer, keeping only one connection to the audio server, such as PulseAudio, instead of multiple connections, one for every audio resource. The mixer combines all streams into a single audio server connection.

Adaptive media streaming for the Web (MSE)

We have been working on a new MSE backend for a while, but along the way many related bugs have appeared and they were squashed. Also many code cleanups has been carried out. Though it has been like yak shaving, we are confident that we will reach the end of this long and winding road soonish.

DRM media playback for the Web (EME)

Regarding digital protected media playback, we worked to upstream OpenCDM, support with Widevine, through RDK’s Thunder framework, while continued with the usual maintenance of the others key systems, such as Clear Key, Widevine and PlayReady.

For more details we published a blog post: Serious Encrypted Media Extensions on GStreamer based WebKit ports.

Realtime communications for the Web (WebRTC)

Just as EME, WebRTC is not currently enabled by default in browsers such as Epiphany because license problems, but they are available for custom adopters, and we are maintaining it. For example, we collaborated to upgrade LibWebRTC to M87 and fixed the expected regressions and gardening.

Along the way we experimented a bit with the new GPUProcess for capture devices, but we decided to stop the experimentation while waiting for a broader adoption of the process, for example in graphics rendering, in WPE/WebKitGTK.

GPUProcess work will be retaken at some point, because it’s not, currently, a hard requirement, since we already have moved capture devices handling from the UIProcess to the WebProcess, isolating all GStreamer operations in the latter.

GStreamer

GStreamer is one of our core multimedia technologies, and we contribute on it on a daily basis. We pushed ~400 commits, with similar number of code reviews, along the second half of 2020. Among of those contributions let us highlight the following list:

• A lot of bug fixing aiming for release 1.18.
• Reworked and enhanced decodebin3, the GstTranscoder
  API and encodebin.
• Merged av1parse in video parsers plugin.
• Merged qroverlay plugin.
• Iterated on the mono-repo
  proposal, which requires consensus and coordination among the whole community.
• gstwpe element has been greatly improved from new user requests.
• Contributed on the new libgstcodecs library, which enables stateless video decoders through different platforms (for example, v4l2, d3d11, va, etc.).
• Developed a new plugin for VA-API using this library, exposing H.264, H.265, VP9, VP8, MPEG2 decoders and a full featured postprocessor, with better performance, according our measurements, than GStreamer-VAAPI.

Conferences

Despite 2020 was not a year for conferences, many of them went virtual. We attended one, the Mile high video conference, and participated in the Slack workspace.

Thank you for reading this report and stay tuned with our work.

This post is a continuation of a series of blog posts about the most interesting debugging tricks I’ve found while working on GStreamer WebKit on embedded devices. These are the other posts of the series published so far:

• GStreamer WebKit debugging tricks using GDB (1/2)

Print corrupt stacktraces

In some circumstances you may get stacktraces that eventually stop because of missing symbols or corruption (?? entries).

#3  0x01b8733c in ?? ()
Backtrace stopped: previous frame identical to this frame (corrupt stack?)

However, you can print the stack in a useful way that gives you leads about what was next in the stack:

• For i386: x/256wa $esp
• For x86_64: x/256ga $rsp
• For ARM 32 bit: x/256wa $sp

You may want to enable asm-demangle: set print asm-demangle

Example output, the 3 last lines give interesting info:

0x7ef85550:     0x1b87400       0x2     0x0     0x1b87400
0x7ef85560:     0x0     0x1b87140       0x1b87140       0x759e88a4
0x7ef85570:     0x1b87330       0x759c71a9 <gst_base_sink_change_state+956>     0x140c  0x1b87330
0x7ef85580:     0x759e88a4      0x7ef855b4      0x0     0x7ef855b4
...
0x7ef85830:     0x76dbd6c4 <WebCore::AppendPipeline::resetPipeline()::__PRETTY_FUNCTION__>        0x4     0x3     0x1bfeb50
0x7ef85840:     0x0     0x76d59268      0x75135374      0x75135374
0x7ef85850:     0x76dbd6c4 <WebCore::AppendPipeline::resetPipeline()::__PRETTY_FUNCTION__>        0x1b7e300       0x1d651d0       0x75151b74

More info: 1

Sometimes the symbol names aren’t printed in the stack memdump. You can do this trick to iterate the stack and print the symbols found there (take with a grain of salt!):

(gdb) set $i = 0
(gdb) p/a *((void**)($sp + 4*$i++))

[Press ENTER multiple times to repeat the command]

$46 = 0xb6f9fb17 <_dl_lookup_symbol_x+250>
$58 = 0xb40a9001 <g_log_writer_standard_streams+128>
$142 = 0xb40a877b <g_return_if_fail_warning+22>
$154 = 0xb65a93d5 <WebCore::MediaPlayerPrivateGStreamer::changePipelineState(GstState)+180>
$164 = 0xb65ab4e5 <WebCore::MediaPlayerPrivateGStreamer::playbackPosition() const+420>
...

Many times it’s just a matter of gdb not having loaded the unstripped version of the library. /proc/<PID>/smaps and info proc mappings can help to locate the library providing the missing symbol. Then we can load it by hand.

For instance, for this backtrace:

#0  0x740ad3fc in syscall () from /home/enrique/buildroot-wpe/output/staging/lib/libc.so.6 
#1  0x74375c44 in g_cond_wait () from /home/enrique/buildroot-wpe/output/staging/usr/lib/libglib-2.0.so.0 
#2  0x6cfd0d60 in ?? ()

In a shell, we examine smaps and find out that the unknown piece of code comes from libgstomx:

$ cat /proc/715/smaps
...
6cfc1000-6cff8000 r-xp 00000000 b3:02 785380     /usr/lib/gstreamer-1.0/libgstomx.so
...

Now we load the unstripped .so in gdb and we’re able to see the new symbol afterwards:

(gdb) add-symbol-file /home/enrique/buildroot-wpe/output/build/gst-omx-custom/omx/.libs/libgstomx.so 0x6cfc1000
(gdb) bt
#0  0x740ad3fc in syscall () from /home/enrique/buildroot-wpe/output/staging/lib/libc.so.6
#1  0x74375c44 in g_cond_wait () from /home/enrique/buildroot-wpe/output/staging/usr/lib/libglib-2.0.so.0
#2  0x6cfd0d60 in gst_omx_video_dec_loop (self=0x6e0c8130) at gstomxvideodec.c:1311
#3  0x6e0c8130 in ?? ()

Useful script to prepare the add-symbol-file:

cat /proc/715/smaps | grep '[.]so' | sed -e 's/-[0-9a-f]*//' | { while read ADDR _ _ _ _ LIB; do echo "add-symbol-file $LIB 0x$ADDR"; done; }

More info: 1

The “figuring out corrupt ARM stacktraces” post has some additional info about how to use addr2line to translate memory addresses to function names on systems with a hostile debugging environment.

Debugging a binary without debug symbols

There are times when there’s just no way to get debug symbols working, or where we’re simply debugging on a release version of the software. In those cases, we must directly debug the assembly code. The gdb text user interface (TUI) can be used to examine the disassebled code and the CPU registers. It can be enabled with these commands:

layout asm
layout regs
set print asm-demangle

Some useful keybindings in this mode:

• Arrows: scroll the disassemble window
• CTRL+p/n: Navigate history (previously done with up/down arrows)
• CTRL+b/f: Go backward/forward one character (previously left/right arrows)
• CTRL+d: Delete character (previously “Del” key)
• CTRL+a/e: Go to the start/end of the line

This screenshot shows how we can infer that an empty RefPtr is causing a crash in some WebKit code.

Wake up an unresponsive gdb on ARM

Sometimes, when you continue (‘c’) execution on ARM there’s no way to stop it again unless a breakpoint is hit. But there’s a trick to retake the control: just send a harmless signal to the process.

kill -SIGCONT 1234

Know which GStreamer thread id matches with each gdb thread

Sometimes you need to match threads in the GStreamer logs with threads in a running gdb session. The simplest way is to ask it to GThread for each gdb thread:

(gdb) set output-radix 16
(gdb) thread apply all call g_thread_self()

This will print a list of gdb threads and GThread*. We only need to find the one we’re looking for.

Generate a pipeline dump from gdb

If we have a pointer to the pipeline object, we can call the function that dumps the pipeline:

(gdb) call gst_debug_bin_to_dot_file_with_ts((GstBin*)0x15f0078, GST_DEBUG_GRAPH_SHOW_ALL, "debug")

CSS Grid Layout is a web-standard layout system used to define a grid structure of rows and columns in CSS. HTML elements can then be distributed to the resulting grid cells to achieve a flexible and predictable layout.

This layout system is highly capable, but using it requires a shift away from the mental models of the past. When the grid definition itself is not visible (only its effects on the placement of items are visible), you can easily get lost and confused, not understanding why the layout doesn’t work as intended.

When you can see both the structure of the grid and its effects in context on the page, it makes working with CSS Grid Layout more approachable and easier to reason about.

CSS Grid Inspector is a new tool in Web Inspector which helps you visualize grids defined using CSS Grid Layout notation and verify that elements are positioned as expected. It was introduced in Safari Technology Preview 123.

Visualizing grids

CSS Grid Inspector shows a page overlay on top of HTML elements which are CSS Grid containers. An element is a CSS Grid container when its display CSS property has a value of either grid or inline-grid.

You can turn on the overlay for a CSS Grid container in one of two ways:

• Click the “grid“ badge shown next to the element in the DOM Tree outline of the Elements Tab.
• Open the new Layout panel in the details sidebar of the Elements Tab, then click the checkbox next to the corresponding element in the Grid Overlays list.

The overlay can show:

• Lines which define the grid rows, and columns (a.k.a. grid tracks)
• Spacing between grid tracks (a.k.a. grid gaps)
• Labels for line numbers and grid track sizes
• Labels for grid line names, and grid area names

Configuring the CSS Grid Inspector overlay

The CSS Grid Inspector overlay can show many properties of a grid’s components according to the CSS properties used. Showing everything all at once can be overwhelming. Depending on your workflow, you may prefer to see all or just a subset.

Use the settings in the Page Overlay Options section of the Layout panel in the details sidebar to configure the level of detail presented with the overlay. Changes are applied immediately and saved across Web Inspector sessions.

You can toggle the following options:

• Track Sizes: shows a label with the user-authored value for the track size or auto if the value is not explicitly set. This helps visual inspection by matching the user-authored value set in CSS with the corresponding grid track on the page.
• Line Numbers: shows a label with the ordinal and the reverse ordinal of explicit grid lines. The reverse ordinal is useful when referencing lines backward from the end. For example, 1 -4 means “the first and the fourth last”.
• Line Names: shows a label with the user-defined name for a grid line or the implicit grid line name derived from a grid area name. When undefined, this does nothing. Learn more about implicit grid line names on MDN.
• Area Names: shows a label with the user-defined name for a group of cells. When undefined, this does nothing.
• Extended Grid Lines: extends grid lines infinitely in their respective directions. This is useful for checking alignment with other elements on the page.

To change the overlay color, use the color swatch next to the corresponding element in the Grid Overlays list found in the Layout sidebar panel. The new color will be saved for that element on that page and is remembered across Web Inspector sessions. When you return later to inspect the same element, the overlay will use the color you picked.

Try it out

If you’re using Safari Technology Preview 123 or a later release, you can inspect the example below to try out the CSS Grid Inspector on this page. Open Web Inspector, go to the Elements Tab, switch to the Layout sidebar panel, then toggle the grid overlay for the element marked div#css-grid-demo.

If you encounter any issues, please file a report at webkit.org/new-inspector-bug.
If you want to share feedback or ideas, please send them to us on Twitter: @webkit.

I’ve been developing and debugging desktop and mobile applications on embedded devices over the last decade or so. The main part of this period I’ve been focused on the multimedia side of the WebKit ports using GStreamer, an area that is a mix of C (glib, GObject and GStreamer) and C++ (WebKit).

Over these years I’ve had to work on ARM embedded devices (mobile phones, set-top-boxes, Raspberry Pi using buildroot) where most of the environment aids and tools we take for granted on a regular x86 Linux desktop just aren’t available. In these situations you have to be imaginative and find your own way to get the work done and debug the issues you find in along the way.

I’ve been writing down the most interesting tricks I’ve found in this journey and I’m sharing them with you in a series of 7 blog posts, one per week. Most of them aren’t mine, and the ones I learnt in the begining of my career can even seem a bit naive, but I find them worth to share anyway. I hope you find them as useful as I do.

Breakpoints with command

You can break on a place, run some command and continue execution. Useful to get logs:

break getenv
command
 # This disables scroll continue messages
 # and supresses output
 silent
 set pagination off
 p (char*)$r0
continue
end

break grl-xml-factory.c:2720 if (data != 0)
command
 call grl_source_get_id(data->source)
 # $ is the last value in the history, the result of
 # the previous call
 call grl_media_set_source (send_item->media, $)
 call grl_media_serialize_extended (send_item->media, 
  GRL_MEDIA_SERIALIZE_FULL)
 continue
end

This idea can be combined with watchpoints and applied to trace reference counting in GObjects and know from which places the refcount is increased and decreased.

Force execution of an if branch

Just wait until the if chooses a branch and then jump to the other one:

6 if (i > 3) {
(gdb) next
7 printf("%d > 3\n", i);
(gdb) break 9
(gdb) jump 9
9 printf("%d <= 3\n", i);
(gdb) next
5 <= 3

Debug glib warnings

If you get a warning message like this:

W/GLib-GObject(18414): g_object_unref: assertion `G_IS_OBJECT (object)' failed

the functions involved are: g_return_if_fail_warning(), which calls to g_log(). It’s good to set a breakpoint in any of the two:

break g_log

Another method is to export G_DEBUG=fatal_criticals, which will convert all the criticals in crashes, which will stop the debugger.

Debug GObjects

If you want to inspect the contents of a GObjects that you have in a reference…

(gdb) print web_settings 
$1 = (WebKitWebSettings *) 0x7fffffffd020

you can dereference it…

(gdb) print *web_settings
$2 = {parent_instance = {g_type_instance = {g_class = 0x18}, ref_count = 0, qdata = 0x0}, priv = 0x0}

even if it’s an untyped gpointer…

(gdb) print user_data
(void *) 0x7fffffffd020
(gdb) print *((WebKitWebSettings *)(user_data))
{parent_instance = {g_type_instance = {g_class = 0x18}, ref_count = 0, qdata = 0x0}, priv = 0x0}

To find the type, you can use GType:

(gdb) call (char*)g_type_name( ((GTypeInstance*)0x70d1b038)->g_class->g_type )
$86 = 0x2d7e14 "GstOMXH264Dec-omxh264dec"

Instantiate C++ object from gdb

(gdb) call malloc(sizeof(std::string))
$1 = (void *) 0x91a6a0
(gdb) call ((std::string*)0x91a6a0)->basic_string()
(gdb) call ((std::string*)0x91a6a0)->assign("Hello, World")
$2 = (std::basic_string<char, std::char_traits<char>, std::allocator<char> > &) @0x91a6a0: {static npos = <optimized out>, _M_dataplus = {<std::allocator<char>> = {<__gnu_cxx::new_allocator<char>> = {<No data fields>}, <No data fields>}, _M_p = 0x91a6f8 "Hello, World"}}
(gdb) call SomeFunctionThatTakesAConstStringRef(*(const std::string*)0x91a6a0)

See: 1 and 2

Another month is gone, and we are back with another status update (see January and February ones).

This is about the work Igalia is doing on the implementation of :focus-visible in WebKit. This is a part of the Open Prioriziatation campaign and being sponsored by many people. Thank you!

The work on March has slowed down, so this status update is smaller than previous ones. Main focus has been around spec discussions trying to reach agreement.

Implementation details

The initial patch is available in the last Safari Technology Preview (STP) releases behind a runtime flag, but it has an annoying bug that was causing the body element to match :focus-visible when you used the keyboard to move focus. The issue was fixed past month but it hasn’t been included on a STP release yet (hopefully it’ll made it in release 124). Apart from that some minor patches related to implementation details have landed too. But this was just a small part of the work during March.

In addition I realized that :focus-visible appears in the Chromium and Firefox DevTools, so I took a look about how to make that happen on WebKit too. At that point I realized that :focus-within, which has been shipping for a long time, isn’t available in WebKit Web Inspector yet, so I cooked a simple patch to add it there. However that hasn’t landed yet, because it needs some UI rework, otherwise the list of pseudo-classes is going to be too long and not looking nice on the inspector. So the patch is waiting for some changes on the UI before it can be merged. Once that’s solved, adding :focus-within and :focus-visible to the Web Inspector is going to be pretty straight forward.

Spec discussions

This was the main part of the work during March, and the goal was to reach some agreement before finishing the implementation bits.

The main issue was how :focus-visible should work when a script moves focus. The behavior from the current implementations was not interoperable, the spec was not totally clear and, as explained on the previous report, in order to clarify this I created a set of new tests. These tests demonstrated some interesting incompatibilities. Based on this, we compared the results with the widely used polyfill as well. We found that there were various misalignments on tricky cases which generated significant discussions on which was correct, and why. After considerable discussion with people from Google and Mozilla, it looks like we have finally reached an agreement on the expectations.

Next was to see if we could clarify the text so that these cases couldn’t be interpreted in importantly incompatible ways, and following the advice from the CSS Working Group, I worked on a PR for the HTML spec trying to define when a browser should draw a focus indicator, and thus match :focus-visible. There some discussion about which elements should always match :focus-visible and how to define that in a normative text was raised (as some elements like <select> draw a focus ring in some browsers and not other when clicked, and some elements like <input type="date"> allow keyboard input or not depending on the platform). The discussion is still ongoing, and we’re still trying to find the proper way to define this in the HTML spec. Anyway if we manage to do that, that would be a great step forward regarding interoperability of :focus-visible implementations, and a big win for the final people using this feature.

Apart from that I’ve also created a test for my proposal about how :focus-visible should work in combination with Shadow DOM, but I don’t think I want to open that can of worms until the other part is done.

Some numbers

Let’s take a look to the numbers again, though things have moved slowly this time.

• 21 PRs merged in WPT (1 in March).
• 17 patches landed in WebKit (3 in March).
• 7 patches landed in Chromium.
• 2 PRs merged in CSS spcs (1 in March).
• 1 PR merged in HTML spec.

Next steps

The main goal for April would be to close the spec discussions and land the PRs in HTML spec, so we can focus again in finishing the implementation in WebKit.

However if reaching an agreement to make these changes on HTML spec is not possible, probably we can still land some patches on the implementation side, to add some support for script focus on the WebKit side.

Stay tuned for more updates!

Safari Technology Preview Release 123 is now available for download for macOS Big Sur and macOS Catalina. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

This release covers WebKit revisions 273903-274641.

Web Inspector

• Elements Tab
  • Enabled CSS grid badges by default (r274575)
  • Made the border color of the grid badge match to the corresponding outline (r273992)
  • Styles details sidebar panel
    • Fixed pseudo-class checkboxes appearing cramped after resizing window at narrow widths (r274465)
  • Layout details sidebar panel
    • Enabled by default (r274466)
    • Changed to persist user-defined CSS grid overlay colors (r273912)
    • Added button to jump to grid container element (r274157)
    • Added checkbox to toggle all grid overlays (r274268)
    • Improved grid overlay to adjust for element transforms (rotation, scale, etc.) (r274096)
    • Improved grid overlay to adjust for element inside iframes (r274464)
• Sources Tab
  • Fixed syntax highlighting for JSX files that aren’t indicated as being JSX (r274230)
• Timelines Tab
  • Fixed trackpad scrolling in timelines (r274091)
• Storage Tab
  • Changed to use native datetime-local input for changing expires value in cookie popover (r274593)

CSS Aspect Ratio

• Enabled support for the CSS aspect-ratio property by default (r274424)
• Added support for aspect-ratio in intrinsic sizing calculations (r274068)
• Implemented CSS aspect-ratio interpolation (r274415)
• Treated flexbox min-intrinsic like *-content (r274419)

CSS

• Changed to consider intrinsic sizes as automatic whenever the block axis of the flex item is the flexible box main size (r273955)
• Fixed orthogonal items with percentage sizes in Flexbox (r273958)
• Prevented radio buttons used as a flex item from shrinking below its size (r274411)
• Fixed grid track sizing when using relative sized items in auto column tracks (r274596)
• Fixed replaced element definiteness as a grid-item (r274099)
• Fixed position: sticky behavior in a table with dir=RTL (r273982)
• Fixed :focus-visible to not match the body element after a keyboard event (r274365)
• Prevented word-wrap and overflow-wrap from overriding hyphens (r274008)

Web Animations

• Changed border-width, column-width, outline-width, perspective, flex-grow, and flex-shrink to not allow negative values (r274142)
• Corrected blending for column-width and column-count CSS properties (r274147)
• Corrected blending of the flex-basis CSS property (r274198)
• Corrected auto value handling when blending z-index (r274055)
• Fixed setKeyframes() to preserve the animation’s current offset (r274165)
• Fixed interpolation of clip CSS property (r274391)
• Fixed interpolation of orphans and widows CSS properties (r274383)
• Improved background-size interpolation (r274234)
• Improved blending of Length and other Length-related types (r274038)
• Improved font-variation-settings interpolation (r274235)
• Supported animation of perspective-origin property (r274355)

Web API

• Removed the Origin header if the navigation request goes from POST to GET (r273905)
• Fixed selecting text via mouse drag in image documents to not trigger click events (r274305)
• Changed to cancel image loader events after first dispatch (r274357)
• Prevented dynamic import in service worker (r274404)
• Increased resource load priority of async scripts from low to medium (r274145)
• Fixed IndexedDB transactions outdated immediately after it just created (r274269)
• WebGL APIs are aware of AllowShared (r274438)

JavaScript

• Implemented Error#cause (r274552)
• Optimized Boolean constructor calls in DFG and FTL (r274037)
• Fixed attribute-changing of global variables (r274308)

WebAssembly

• Update wasm ref.func to prepare wasm-function-references proposal (r273962)

Scrolling

• Added basic (non-momentum) wheel event handling for scroll snap (r274381)

Rendering

• Fixed <img> to render RTL text correctly in alt text (r274532)

Accessibility

• Updated PDF frame conversion (r274377)

Media

• Fixed video controls staying on screen indefinitely after interacting with the time scrubber (r274293)
• Fixed MediaRecorder.requestData() not returning all captured media after a pause (r274154)

Safari Technology Preview Release 122 is now available for download for macOS Big Sur and macOS Catalina. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

This release covers WebKit revisions 272845-273903.

Web Inspector

• Elements Tab
  • Added badges for CSS Grid container elements (r273097)
  • Layout details sidebar panel
    • Implemented grid overlay options (r272918, r272948, r273098, r273155, r273164, r273185, r273847)
    • Show a list of CSS Grid container elements in the Layout sidebar panel (r272934, r272976, r273502)
• Audits Tab
  • Fixed clicking the “Start” button in the content area placeholder text (r273900)

Animations

• Changed CSS properties that disallow negative values to not animate to negative values (r273001)
• Changed blending of border-image-width to be discrete between auto values and other types (r273635)
• Fixed border-image-outset to handle float values (r273478)
• Fixed border-image-slice blending to account for the fill keyword (r273625)

CSS

• Changed min-content and max-content keywords to behave as an initial value in block axis (r273206)
• Changed CSS grid to not allow negative heights (r273470)
• Fixed min- and max- widths of grid affected by ancestor (r273435)
• Changed the initial value for border-image-outset to 0 (r273882)
• Implemented :focus-visible (r273812, r272983)
• Implemented the first case in Definite and Indefinite Sizes specifications in section 9.8 for flexbox (r273072)
• Fixed runtime-disabled CSS features still appearing enabled via CSS.supports() (r273385)
• Removed support in the CSS parser for -khtml- prefixed CSS values (r273637)
• Removed support for pos and pixel prefixed CSS values (r273627)

CSS Color

• Added experimental support for CSS Color 5 color-contrast() (r273683)
• Added experimental support for CSS Color 5 color-mix() (r273244)
• Added experimental support for CSS Color 5 Relative Color Syntax (r273127)
• Changed color(lab ...) to serialize as color(lab ...) not lab() according to latest CSS Color 4 spec (r273211)
• Fixed lab() and lch() colors to clamp out-of-bound values at parse time (r272909)
• Fixed lch() colors to serialize as lch() (r273078)

CSS Aspect Ratio

• Added support for aspect-ratio on flexbox items (r273193)
• Changed an aspect-ratio that ends with forward slash to be treated as invalid (r273068)
• Fixed aspect-ratio showing in computed styles when disabled (r273314)
• Changed to take box-sizing into account in replaced element intrinsic sizing for aspect-ratio (r273753)

JavaScript

• Enabled private methods (r273125)
• Implemented private static methods (r273107)
• Implemented top-level-await (r273225)
• Implemented RegExp Match Indices (r273086)
• Implemented GC verifier (r273138)
• Added support for modules in Workers and Worklets (r273203)
• Added support for modules in Service Workers (r273224)
• Avoided performing toObject for options in new Intl constructors to align them to a new spec change (r273153)
• Reduced promise reaction memory usage when there are multiple reactions (r273718)
• Optimized object-reset expression (r273135)
• Optimized Promise#then by avoiding function allocations in major case (r273605)
• Micro-optimized for-in (r273766)
• Threw TypeError when getFunctionRealm hits revoked Proxy (r273661)
• Threw TypeError when TypedArray’s [[DefineOwnProperty]] failed (r273750)
• Fixed delete with index for module namespace object when arbitrary module identifiers use index (r273816)

WebAssembly

• Extended wasm type with type index (r273813)
• Implemented non-trapping float to int conversion (r272933)

Web API

• Enabled Paint Timing (r273221, r273220)
• Changed window proxy of detached iframe doesn’t respect updates to global values (r273901)
• Fixed devicemotion and deviceorientation events to work in third-party iframes with Feature-Policy allowing it (r273444)

Media

• Fixed media segment getting incorrectly dropped when using negative timestampOffset or when source buffer appendWindow is set in MSE (r273461)
• Fixed audio that stops playing when backgrounding a page that is playing and capturing audio (r273069)

WebRTC

• Added support for WebRTC priority (r273550)
• Fixed MediaRecorder.stop() to work correctly when recording has been paused (r272911)
• Added support for BigInt as media-stream encryption key (r273158)

Accessibility

• Added the ability for an embedded accessibility image description in an image file to be reported if available (r273214)
• Fixed VoiceOver announces grid as having “0 columns” causing VoiceOver to not enter the grid (r273715)
• Fixed VoiceOver incorrectly announcing groups in ARIA tree instances as empty (r273328)

Scrolling

• Fixed scroll snapping when dragging scrollbars (r273690)

One month has passed since the previous report so it’s time for a status update.

As you probably already know, Igalia is working on the implementation of :focus-visible in WebKit, a project that is being sponsored by many people and organizations through the Open Prioriziatation campaing. We’ve reached 84% of the goal, thanks you all! 🎉 And if you haven’t contributed yet, you’re still in time to do it if you believe this work is important for you.

The main highlight for February is that initial work has started to land in WebKit, though some important bits are still under review.

Spec issues

There were some open discussions on the spec side regarding different topics, let’s review here the status of them:

• :focus-visible on <select> element: After some discussion on the CSS Working Group (CSSWG) issue it was agreed to remove the <select> element from the tests and each browser could decide whether to match :focus-visible when it’s clicked, as there was not a clear agreement regarding how to interpret if it allows or not keybaord input.

  In any case Chromium has still a bug on elements that have a popup (like a <select>). When you click them they match :focus-visible, but they don’t show the focus indicator (because they want to avoid showing two focus indicators, one on the <select> and another one on the <option>). As it’s not showing a focus indicator, it shouldn’t match :focus-visible in that situation actually.

• :focus-visible on script focus: The spec is not totally clear about when an element should match (or not) :focus-visible after script focus. There has been a nice proposal from Alice Boxhall and Brian Kardell on the CSSWG issue, but when we discussed this in the CSSWG it was decided that was not the proper forum for these discussions. This was because the CSSWG has defined that :focus-visible should match when the browser shows a focus indicator to the user, but it doesn’t care when it’s actually showed or not. That definition is very clear, and despite that each browser shows the focus indicator (or not) in different situations, the definition is still correct.

  Currently the list of heuristics on the spec are not normative, they’re just hints to the browsers about when to match :focus-visible (when to show a focus indicator). But I believe it’d be really nice to have interoperability here, so the people using this feature won’t find weird problems here and there. So the suggestion from the CSSWG was to discuss this in the HTML spec directly, proposing there a set of rules about when a browser should show a focus indicator to the user, those rules would be the current heuristics on the :focus-visible spec with some slight modifications to cover the corner cases that have been discussed. Hopefully we can reach an agreement between the different parties, and manage to define this properly on the HTML spec, so all the implementations can be interoperable on this regard.

  I believe we need to dig deeper in the specific case of script focus, as I’m not totally sure how some scenarios (e.g. blur() before focus() and things like that) should work. For that reason I worked on a set of tests trying to clarify the different situations when the browser should show or not a focus indicator. These need to be discussed with more people to see if we can reach an agreement and prepare some spec text for HTML.

• :focus-visible and Shadow DOM: Another topic already explained in the previous report. My proposal to the CSSWG was to avoid matching :focus-visible on the ShadowRoot when some element in the Shadow Tree has the focus, in order to avoid having two focus indicators.

  There has been raised a concern, as this would allow to guess if an element is or not a ShadowRoot by focusing it via script and then checking if it matches or not :focus-visible (but ShadowRoot elements shouldn’t be observable). However that’s already possible in WebKit that currently uses :-webkit-direct-focus in the default User Agent style sheet, to avoid the double focus indicator in this case. In WebKit you can focus via script an element and check if it has or not an outline to determine if it’s a ShadowRoot.

  Anyway like in the previous case, this would be part of the heuristics so according to CSSWG’s suggestion, this should be discussed on the HTML spec directly.

Default User Agent style sheet

Early this month I landed a patch to start using :focus-visible in Chromium User Agent style sheet, this is included in version 90. 🚀 This means that from that version on you won’t see an outline when you click on a <div tabindex="0">, only when you focus it with the keyboard. Also the hack :focus:not(:focus-visible) won’t be needed anymore (actually it has been removed from the spec too).

In addition, Firefox is also using :focus-visible on their User Agent style sheet since version 87.

More about tests

During this month there has been still some extra work on the tests. While I was implementing things on WebKit I realized about some minor issues in the tests that have been fixed along the way.

I also found out some limitations of WebKit with regard to testdriver.js support for simulating keyboard inputs. Some of the :focus-visible tests use the method test_driver.send_keys() to send keys like Control or Enter. I added support for them on WebKit. Apart from that, I fixed how modifier keys are identified in WebKitGTK and WPE, as they were not following other browsers exactly (e.g. event.ctrlKey was not set on keydown event, only on keyup).

WebKit implementation

And the most important part, the actual WebKit implementation has been moving forward during this month. I managed to have a patch that passed all the tests, and split it a little bit in order to merge things upstream.

The first patch that just do the parsing of the new pseudo-class and adds a experimental flag has already landed.

Now a second patch is under review. It originally contained the whole implementation that passes all the tests, but due to some discussion on the script focus issues, that part has been removed. Anyway the review is ongoing and hopefully it’ll land soon and you could start testing it in the WebKit nightlies.

Some numbers

Like in the previous post, let’s again review the numbers of what has been done during in this project:

• 20 PRs merged in WPT (7 in February).
• 14 patches landed in WebKit (9 in February).
• 7 patches landed in Chromium (3 in February).
• 1 PR merged in Selectors spec (1 in February).
• 1 PR merged in HTML spec (1 in February).

Next steps

First thing is to get the main patch landed in WebKit and verify that things are working as expected on the different platforms.

Another issue we need to solve is to reach an agreement on how script focus should work regarding :focus-visible, and then get that implemented in WebKit covering all the cases.

After that we could request to enable the feature by default in WebKit. Once that’s done, we could discuss the possibility to change the default User Agent style sheet to use :focus-visible too.

There are some interop work pending to do. A few things are failing on Firefox and we could try to help to fix them. Also some weird issues with <select> elements in Chromium that might need some love too. And depending on the ongoing spec discussions there might be some changes needed or not in the different browsers. Anyway, we might find the time or not to do this, let’s see how things evolve in the next weeks.

Big thanks to everyone that has contributed to this project, you’re all wonderful for letting us work on this. 🙏 Stay tuned for more updates in the future!

Safari Technology Preview Release 121 is now available for download for macOS Big Sur and macOS Catalina. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

This release covers WebKit revisions 271794-272845.

Web Inspector

• Sources
  • Collapsed blackboxed call frames in the Call Stack section (r272371)

CSS

• Added support for aspect-ratio on grid items (r272307)
• Added support for logical variants of scroll-padding and scroll-margin (r272035)
• Added support for color(a98-rgb ...), color(prophoto-rgb ...), color(rec2020 ...), color(xyz ...), hwb() as part of CSS Color 4 (r271992, r272125, r272123, r272311, r272344)
• Added support for percentages when parsing color(srgb ...) and color(display-p3 ...) per-spec (r271866)
• Changed sRGB to XYZ conversion matrix values to match values in the latest spec (r272498)
• Fixed max-height percentages that are wrongly resolved for replaced grid items (r272309)
• Fixed grid item to fill the grid area for stretch or normal self alignment (r272308)
• Fixed animation of rotate or scale property to correctly account for static translate property (r272201)
• Fixed font-stretch to apply to system-ui (r272073)
• Fixed the nested grid container which has a replaced item with max-height incorrectly getting width(0px) (r272338, r272711)
• Implemented scroll-snap-stop for scroll snapping (r272610)
• Handled aspect-ratio: auto m/n for replaced elements (r272360)
• Handled min-width: auto or min-height: auto for aspect-ratio (r272718)
• Handled zero aspect-ratio width or height (r271948)
• Made auto && <ratio> use content box-sizing (r272569)

GPU Process

• Enabled audio capture in GPUProcess by default (r272735)
• Enabled audio capture for speech recognition in GPUProcess (r272434)
• Enabled GPU WebRTC codecs in GPUProcess by default on macOS (r272496)
• Enabled video capture in GPUProcess by default on macOS (r272810)
• Fixed <audio> not loading when the URL ends with .php causing some tests to time out (r272750)
• Fixed implementation of WebGL power preference and discrete/internal GPU selection with ANGLE (r271880)

Media

• Added intermediate volume icon states between “mute” and “max” (r272375)
• Changed media controls to show the total duration, only switching to time remaining when clicked (r272373)
• Changed MediaStream-backed video elements to not compute the mediaType based on track muted states (r272583)
• Connected MediaSession with MediaRemote and NowPlaying (r272445, r272589)
• Fixed sound on YouTube after switching back to foreground (r272829)
• Fixed playback of WebM/Opus generated from Chrome MediaRecorder (r272822)
• Fixed Picture-in-Picture video pauses when scrolling on Twitter (r271870)
• Updated media controls time scrubber styles (r272352, r272438)
• Updated media controls to use new SF Symbols (r272339)

Web API

• Fixed the return key binding for date inputs conflicting with pressing return to submit a form (r272495
• Fixed selecting a date on datetime-local inputs unexpectedly adding second and millisecond fields (r272368)
• Fixed rendering a pattern with an SVG image (r272549)
• Forbid “|” in URL hosts (r271899)
• Reduced the overhead of HTMLDocumentParser in innerHTML setter (r272622)

JavaScript

• Added @ in Error#stack even if function name does not exist (r272139)
• Added Atomics support for BigInt64Array and BigUint64Array behind a runtime flag (JSC_useSharedArrayBuffer=1) (r272341)
• Adjusted properties order of host JS functions (r272099)
• Changed Object.assign to throw for property creation on non-extensible target (r272411)
• Handled milliseconds in Date’s timezone without floating point rounding (r272127)
• Implemented BigInt64Array and BigUint64Array (r272170, r272215)
• Implemented private methods behind flag (JSC_usePrivateMethods=1)(r272580)
• Made JSON.parse faster by using table for fast string parsing (r272570)

WebAssembly

• Implemented WebAssembly.instantiateStreaming and WebAssembly.compileStreaming (r271993)
• Implemented streaming compilation/instantiation for the Blob type (r272221)
• Updated WebAssembly.Global to support Funcref and Externref (r272071, r272081, r272119)
• Enabled Wasm bulk-memory and reference-types (r272074)

Accessibility

• Exposed focusable elements even if the element or ancestor has aria-hidden=true (r272390)
• Fixed long narrow tables to not be made into data tables unnecessarily (r272024)

Speech Recognition

• Used the user media permission prompt for Speech Recognition (r272165)

Safari Technology Preview Release 120 is now available for download for macOS Big Sur and macOS Catalina. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

This release covers WebKit revisions 271358-271794.

Web Inspector

• Elements
  • RTL content inside elements is reversed and unreadable (r271458)
  • Font details sidebar panel
    • Improved line wrapping of table row titles (r271528)
    • Updated fractional variation axis ranges and default values to not be rounded (r271620)
    • Changed the “Historical Figures” section name to “Alternate Glyphs” (r271612)
• Sources
  • Allowed breakpoint actions to be evaluated as a user gesture (r271373)
• Console
  • Fixed bidi confusion when evaluation result has RTL text (r271726)

Scrolling

• Changed slow-scrolling reasons to not propagate across frame boundaries (r271508)
• Fixed scroll-chaining to trigger before the complete end of overscroll (r271730)
• Fixed scroll-padding to affect paging operations (r271788)
• Fixed scroll-snap points to be triggered during programmatic scroll (r271439)

CSS

• Added relayout for grid items when definiteness changes (r271745)
• Added support for lab(), lch(), and color(lab ...) colors (r271362)
• Fixed incorrect scroll-snap-align parsing (r271480)
• Handled shapeMargin becoming NaN (r271738)
• Implemented logical border-radius (r271447)
• Included aspect-ratio in percentage resolution (r271375)
• Supported transferred min/max block size for aspect-ratio (r271554, r271648)
• Optimized :hover and :active style invalidation for deep trees and descendant selectors (r271584)
• Updated font when resolving letter-spacing: calc(...) values (r271688)
• Reversed transform animation not applied alongside other transform animations (r271524)

JavaScript

• Fixed super accesses on arrow functions defined as a class field (r271420)

Web API

• Accelerated HTMLInputElement creation (r271672)
• Changed to use the event loop to set the page title (r271514)
• Changed a non-integer tabindex to match the element behavior as if the tabindex was omitted (r271523)
• Disabled the context menu item and menu bar item to toggle automatic spelling correction where autocorrect="off" (r271459)
• Fixed elements in a table getting incorrectly selected in JavaScript (r271635)
• Included an origin identifier when writing promised image data to the drag pasteboard (r271685)

Media

• A video element needs to ignore the request to enter/exit fullscreen before the current fullscreen mode change is completed (r271377)
• Allowed MediaStream and non MediaStream backed videos to play together (r271698)
• Changed to prevent two pages in the same process to not play media stream backed video elements at the same time (r271670)
• Fixed videos not playing on Facebook Stories (r271725)
• Fixed picture-in-picture video subtitles that stop updating when Safari is backgrounded (r271737)
• Fixed playback failure on marketwatch.com (r271531)
• Fixed Netflix controls to correctly fade out after entering fullscreen (r271656)
• Fixed Facebook pausing video in picture-in-picture during scroll (r271470)
• Introduced a MediaSessionGroupIdentifier (r271643)
• Updated buttons of the media permission prompt (r271485)

WebRTC

• Enabled WebRTC VP9 profile 0 by default (r271641)
• Disabled verification timer in case of capture suspension (r271749)
• Changed to notify capture state immediately on page close (r271640)

Web Audio

• Addressed WebRTC live Opus audio stream stutters (r271575)

Accessibility

• Implemented aria-braillelabel and aria-brailleroledescription (r271416)
• Fixed AT-synthesized key events for common user actions such as increment or decrement (r271760, r271536)

Payment Request

• Changed to use the first item in shippingOptions even when it’s not selected (r271735)
• Fixed constructor to throw an error if the same payment method is provided more than once (r271734)
• Fixed issue where the shippingOption of the PaymentResponse is null after updateWith (r271703)

Speech Recognition

• Made SpeechRecognition permission error more informative (r271381)
• Updated media state for active speech recognition as it uses audio capture (r271636)

Private Click Measurement

• Enabled output logs by default, including to Web Inspector (r271473)

Bug fixes

• Fixed “Blocked Plug-in” instead of showing a PDF (r271650)
• Fixed combinations of nested perspective and transforms causing blurry layers on retina displays (r271388)
• Fixed SVG reference filter chain with errors applying only some of the filters and producing incorrect output (r271785)
• Removed explicit clamp to SRGB for Lab colors on CG platforms that support wide color (r271712)

The Storage Access API allows third-party web content to ask for permission to get access to its unpartitioned storage, typically in order to authenticate the user. In the case of Safari and WebKit, using the Storage Access API enables cookie access under Intelligent Tracking Prevention.

This blog post covers two changes to the Storage Access API in Safari and WebKit as well as a how-to guide on adoption based on questions we’ve been asked the last two years.

Changes to API Functionality

iOS and iPadOS 14.5, and macOS Big Sur 11.3 betas feature two sought after changes to the Storage Access API in Safari and WebKit – per-page storage access and support for nested iframes. Both of these changes were driven by the standards process in W3C Privacy CG.

Per-Page Storage Access

If a request for storage access is granted to embedee.example, access is now granted to all embedee.example resource loads under the current first party webpage. This includes sibling embedee.example iframes but also other, non-document resources.

Nested Iframes Can Request Storage Access

Imagine a webpage embedding a cross-site iframe from embedeeOne.example which in turn embeds a cross-site iframe from embedeeTwo.example which makes the latter a so called nested iframe. As of this release, nested iframes such as embedeeTwo.example are also allowed to request storage access. Note that we may require first parties to explicitly delegate this capability through Permissions Policy at a later stage. Mozilla has expressed an interest in such control.

How To Use the Storage Access API

For the purposes of this guide we will use the domains social.example for the embedded content in need of cookie access and news.example as the first party website embedding social.example.

First, Cross-Site Iframes Call the API

The Storage Access API is called from inside cross-site, or third-party, iframes. You don’t have to call the API if your website is first party and first party websites cannot call the API on behalf of third-parties.

How-To #1: Meet and Greet the User as First Party

If you want to make use of the Storage Access API as a third-party, you first need to take these steps as a first party:

1. Make sure you are using regular browsing mode, i.e. not Private Browsing. We will cover Private Browsing at the end of this guide.
2. Take the user to your domain as first party. This is your website showing itself and giving the user a chance to recognize your brand and domain name. Recognition is important since the prompt for storage access features your embedded iframe’s domain. In our example, this is taking the user to a webpage with social.example in the URL bar, either though a navigation or a popup.
3. Have the user interact (tap, click, or use the keyboard) with your website as first party. This tells the browser that the user has actually seen and used the site. Note: Navigating to and from your website in a redirect without user interaction does not count. Formally, WebKit’s requirement is user interaction as first party the last 30 days of browser use. Being granted storage access through the Storage Access API counts as such user interaction. In our example, this is having the user tap/click on the webpage with social.example in the URL bar.
4. Set cookies when you are first-party. This establishes the website as “visited” for the purposes of the underlying cookie policy. Third parties without cookies cannot set cookies in Safari and never have since Safari 1.0 in 2003. This means you cannot use the Storage Access API as third-party until you have set at least one cookie as first party. In our example, this is setting cookies for social.example with social.example in the URL bar.

The above requirements are there to make sure the sometimes 50-100 embedded third-parties on a single webpage cannot all prompt the user for storage access, only the ones the user has visited and interacted with can.

How-To #2: Use the Storage Access API as Third Party

Once you have had the user interact with your website as first party and have set cookies as first party, you are ready to make use of the Storage Access API.

1. In shipping Safari, your cross-site iframe that is about to request storage access must be a direct child frame of the top frame. Nested iframes can request storage access as of iOS 14.5 and macOS 11.3 (currently in beta).
2. Make your cross-site iframe call document.hasStorageAccess() as soon as it’s rendered to check your status. Note: Don’t call this function upon a user gesture since it’s asynchronous and will consume the gesture. Once the user gesture is consumed, making a subsequent call to document.requestStorageAccess() will fail because it’s not called when processing a user gesture. In our example this is social.example‘s iframe.
3. If document.hasStorageAccess() returns false, your iframe doesn’t have storage access. Now set an event handler on elements that represent UI which requires storage access and make the event handler call document.requestStorageAccess() on a tap or click. This is the API that requires a user gesture. In our example this is social.example‘s iframe calling the API.
4. Render the page with your cross-site iframe. Tap or click on an element with an event handler in the iframe. In our example this is rendering a page from news.example with thesocial.example‘s iframe and clicking on an element in the social.example iframe’s document.
5. If the user has not yet opted in to storage access for social.example under news.example there will now be a prompt. Choose “Don’t Allow” in the prompt. Tip: Don’t choose “Allow” yet because it’ll be remembered and you’ll have to delete browser history to reset it. If you are not getting the prompt, you either have not gotten user interaction as first party and set cookies for social.example yet (see How-To #1) or you have already chosen “Allow” earlier which is remembered.
6. Test the behavior for the “Don’t Allow” case. You can do it repeatedly. Do it until you’re happy with how your code handles it. Note that when the user chooses “Don’t Allow” in the prompt, their user gesture is consumed and any further API calls in your iframe that require a user gesture will have to get the user to tap or click again. We’ve deliberately designed it this way to make sure that an explicit deny from the user doesn’t trigger further privileged API calls from the iframe. The user should at this point be able to continue with other things.
7. Now tap or click the iframe again and this time choose “Allow” in the prompt. This should open up cookie access on resolution of the promise.
8. Test the behavior for the “Allow” case. Note that when the user chooses “Allow” in the prompt, their user gesture is preserved and any further API calls in your iframe that require a user gesture can go right ahead. We’ve deliberately designed it this way so that when you get access to cookies and note that the user is not in the desired state, such as not logged in, you can open a popup or navigate them to your website without further user gestures. In our example this would be a popup or navigation to social.example.
9. Now reload the webpage. This will reset your per-page storage access. Tap or click the iframe to trigger the call to document.requestStorageAccess(). This should open up cookie access without a prompt since the user has already opted in and that choice is remembered.
10. Finally test the flow in Private Browsing Mode. In that mode, the user must interact with your website as first party (see How-To #1) in the same tab as where you later request storage access as third-party. This is because Private Browsing Mode uses a separate ephemeral session for each new tab the user opens, i.e. the state of those tabs are separate. The rest should work the same as in regular mode.

This blog post covers a new feature called Private Click Measurement, or PCM, for measuring ad clicks across websites and from iOS apps to websites. It is part of iOS and iPadOS 14.5 betas.

Motivation and Goals

Classic ad attribution on the web is done with cookies carrying user or device IDs. Such attribution constitutes cross-site tracking which WebKit is committed to preventing. Websites should not be able to attribute data of an ad click and a conversion to a single user as part of large scale tracking.

At the same time, we want to support measurement of online advertising. PCM achieves this tradeoff by sending attribution reports with limited data in a dedicated Private Browsing mode without any cookies, delaying reports randomly between 24 and 48 hours to disassociate events in time, and handling data on-device.

The Feature in a Nutshell

• A new, on-by-default feature called Private Click Measurement, or PCM, for privacy-preserving measurement of ad clicks across websites and from iOS apps to websites in iOS and iPadOS 14.5 betas.
• An 8-bit identifier on the click source side, which means 256 parallel ad campaigns can be measured per website or app.
• A 4-bit identifier on the conversion side, which means 16 different conversion events can be distinguished.
• Fraud prevention via unlinkable tokens will be coming.

A Proposed Standard

We first proposed privacy-preserving measurement of ad clicks in May 2019. Since then the proposal has changed name to Private Click Measurement and been discussed extensively in the W3C Privacy Community group, both through meetings and on GitHub.

A proposal needs two independent implementations to be on track to become a web standard. This means another browser such as Firefox, Brave, Chrome, or Edge needs to independently implement PCM before it can move further along the standards track. We are working with them to get there.

Nevertheless, we are happy to be the first browser to enable a proposed web standard for measuring advertising!

On By Default

You may ask why we are enabling PCM by default before there is a second independent implementation and before we’ve added the fraud prevention mechanism discussed in W3C Privacy CG. The reasons are:

• Early access. We recognize the need for early access so that advertisers, websites, and apps can adopt the technology, analyze real data, tune their measurement, and report any issues to us.
• Equal access. We want to provide everyone with the opportunity to test and use this technology from the get-go. An alternative would be to only run it with selected partners but we have opted for an open approach.
• Attribution data is stable. Fraud prevention tokens will be added and naming of data labels might change, but the functionality and attribution data is stable, namely 8 bits on the click source side and 4 bits on the attribute-on side. Thus, full scale tests of PCM are meaningful and useful at this point.

Web-to-Web Click Measurement

PCM web-to-web is the case covered by the proposed standard, i.e. a user clicks a link on a webpage, is navigated cross-site, and up to seven days later, there’s a signal on the destination website saying it would like attribution for any previous clicks that took the user here.

For the purposes of the examples below, we assume the click happens on a website called social.example and the click navigates the user to shop.example.

The Click Side

Links that want to store click measurement data should look like this:

<!-- Link on social.example --> 
<a href="https://shop.example/product.html" 
   attributionsourceid="[8-bit source ID]"
   attributeon="https://shop.example">

  Markup

</a>

The two mandatory attributes are:

• attributionsourceid: The 8-bit attribution source ID, allowed to be between 0 and 255. This was earlier referred to as the ad campaign ID but since PCM is not technically tied to advertising, it was decided in the standards discussion that its attributes and key names should not use advertising terms.
• attributeon. The click destination website which wants to attribute incoming navigations to clicks. Note that PCM only uses the registrable domain or eTLD+1, i.e. there is no separation based on subdomains. This is so that the destination cannot be set up as https://janeDoeTracking.shop.example to track user Jane Doe.

If the click indeed navigated the user to the attributeon website, the attributionsourceid is stored as a click from social.example to shop.example for 7 days.

Note that this data is not accessible to websites. It’s silently stored in the browser.

The Triggering Event

To trigger click attribution, the “attribute on” website has to make an HTTP GET request to the website(s) where it is running click-through ads. This way of doing it is intended to support existing “tracking pixels” and make adoption easy. In our example this would be the shop.example site making an HTTP GET request to social.example. For a more modern way of triggering attribution, see the Future Enhancements section.

The HTTP GET request to social.example triggers attribution if it is redirected to https://social.example/.well-known/private-click-measurement/trigger-attribution/[``4-bit`` trigger data]/[optional 6-bit priority]. Note: The first beta lacks the /trigger-attribution path component since this was a very recent decision in the standards group.

The two URL path parameters are:

• Trigger data. This is a 4-bit value between 00 and 15 that encodes the triggering event (note the mandatory two digits). This was earlier referred to as the conversion value but again, PCM is not technically tied to advertising so it doesn’t use advertising terms.
• Optional priority. This is a 6-bit value between 00 and 63 which allows multiple triggering events to result in a single attribution report for the event with the highest priority (again, note the two digits). For instance, there might be multiple steps in a sales funnel where each step triggers attribution but steps further down the funnel have higher priority. This value only controls which trigger data goes into the attribution report and is not part of the attribution report itself. You may ask why this isn’t a 4-bit value like the trigger data. The reason is to support easy changes to what’s being measured without having to remap several trigger-data-to-priority pairs. Triggering events 00-15 may start out as mapped to priority 00-15 but then the shop owner wants to drill into events 5-7. With the extra bits, it’s easy to assign triggering events 05-07 to priority 20-22 so as to focus attribution reports to those.

Once a triggering event matches a stored click, a single attribution report is scheduled by the browser to be sent out randomly between 24 and 48 hours later, or the earliest time thereafter when the browser is running. As long as an attribution report has not yet been sent, it can be rescheduled based on a triggering event with higher priority.

The Attribution Report

PCM attribution reports are sent as HTTP POST requests to /.well-known/private-click-measurement/report-attribution/ on the website where the click happened, in our example https://social.example/.well-known/private-click-measurement/report-attribution/. Note: The first beta lacks the /report-attribution path component since this was a very recent decision in the standards group.

The report is in JSON and looks like this:

{
  "source_engagement_type" : "click",
  "source_site" : "social.example",
  "source_id" : [8-bit source ID],
  "attributed_on_site" : "shop.example",
  "trigger_data" : [4-bit trigger data],
  "version": 1
}

Notes on the non-obvious key-values above:

• source_engagement_type is always “click” for PCM. This field allows for future use of this report mechanism for other types of attribution such as view-through.
• version signals to the receiving end which version of the attribution feature this is. You should expect this number to be increased when fraud prevention tokens are added or something else about the mechanism is changed. This allows concurrent versions to work in parallel and provides a signal to developers that there may be things they need to change or adopt on their side.

App-to-Web Click Measurement

This is exciting – we’re adding the capability to measure ad clicks from iOS and iPadOS apps to Safari!

Many advertisers in apps want to take the user to their website where the user can buy a product or sign up for a service. This is exactly the kind of ad PCM app-to-web allows them to measure.

The Click Side

The only thing that differs from PCM web-to-web is on the click side which is in an iOS app. To adopt this technology you need to do this:

1. Add a URL to where you want PCM’s ad attribution reports to be sent when ads are clicked in your app. You do this under the key NSAdvertisingAttributionReportEndpoint in your Info.plist. The naming of this endpoint is deliberately not tied to PCM. Potential future ad measurement reports associated with apps may use this URL with a differing well-known location if appropriate. Note that the subsequent HTTP redirect to trigger attribution needs to go to this website.
2. Populate and add the new UIEventAttribution to the options of your call to openURL:. See below for what fields you need to enter in UIEventAttribution.
3. Overlay the parts of the click-through ad that will trigger navigations to websites with the new UIEventAttributionView. This view only serves as a checkpoint for Apple’s code on-device to check that a user gesture happened before the navigation. The view does not consume the gesture and you are free to decide whether or not to navigate to a website even if the gesture happened on one of these views. A user gesture is required for your UIEventAttribution object to be forwarded to the browser as part of the call to openURL:. Note that PCM app-to-web is so far only supported in Safari and only on iOS and iPadOS. We intend to add WebKit API to enable other default browsers to be the destination of PCM app-to-web too.

UIEventAttribution

This is the optional data structure you submit in your call to openURL: when you want to measure clicks:

open class UIEventAttribution : NSObject, NSCopying {
    open var sourceIdentifier: UInt8 { get }
    open var destinationURL: URL { get }
    open var reportEndpoint: String? { get }
    open var sourceDescription: String { get }
    open var purchaser: String { get }
    public init(sourceIdentifier: UInt8,
                destinationURL: URL,
                sourceDescription: String,
                purchaser: String)
}

• sourceIdentifier is the same as PCM’s attributionsourceid attribute for links. Allowed values are 0-255.
• destinationURL is the same as PCM’s attributeon attribute for links but it should be a full URL with protocol. The report will be sent to the URL’s registrable domain (eTLD+1) and over HTTPS.
• reportEndpoint will be picked up by Apple code from your info.plist’s NSAdvertisingAttributionReportEndpoint. As you can see, the init function does not take this parameter. This is where PCM will send any subsequent ad attribution reports. The reason why it need to be stated in the static Info.plist is so that it cannot be used as a tracking vector by dynamically submitting user-specific reporting URLs such as janeDoeTracking.example.
• sourceDescription is a human-readable description of the content that was tapped. This string should be no longer than roughly 100 characters and can be localized according to the context. It will not be seen by Apple or the destination website. Instead it’s intended to be able to show to users what ad click data they have stored.
• purchaser is a human-readable name or description of the purchaser of the content that was tapped, typically the ad buyer. This string should be no longer than roughly 100 characters and can be localized according to the context. It will not be seen by Apple or the destination website. Instead it’s intended to be able to show to users what ad click data they have stored.

UIEventAttribution Sample Code

func openAdLink() {
    let adURL = URL(string: "https://shop.example/tabletStandDeluxe.html")!
    let eventAttribution =
        UIEventAttribution(sourceIdentifier: 4,
                           destinationURL: adURL,
                           sourceDescription: "Banner ad for Tablet Stand Deluxe.",
                           purchaser: "Shop Example, Inc.")

    // If using scene lifecycle.
    let sceneOpenURLOptions = UIScene.OpenExternalURLOptions()
    sceneOpenURLOptions.eventAttribution = eventAttribution
    self.view.window?.windowScene?.open(adURL,
                                        options: sceneOpenURLOptions,
                                        completionHandler: nil)

    // If using application lifecycle.
    let appOpenURLOptions: [UIApplication.OpenExternalURLOptionsKey : Any] = [
        .eventAttribution: eventAttribution
    ]
    UIApplication.shared.open(adURL,
                              options: appOpenURLOptions,
                              completionHandler: nil)
}

UIEventAttributionView

UIEventAttributionView is the view that is placed over the tappable content, typically an ad. It’s used by the system to verify that a user gesture has occurred.

open class UIEventAttributionView : UIView {
}

The view is invisible and very lightweight. The simplest use case is to create one of these views and stretch it over your entire tappable content. You can also place multiple over a single piece of content if you for instance want to create specific tappable areas.

To ensure your UIEventAttributionView works correctly:

• Ensure isUserInteractionEnabled is false. This is the default value for this view and ensures the view doesn’t consume events which would otherwise go to the content beneath it.
• Ensure there are no views placed on top of the event attribution view. The user should be tapping this view for it to count as a user gesture for the purposes of PCM app-to-web.
• Ensure your tap handling occurs on a touch up event. This automatically occurs if your content is tapped in response to a UITapGestureRecognizer firing or at the .ended state of a UILongPressGestureRecognizer.

UIEventAttributionView Sample Code

func addEventAttributionView() {
    // Create an event attribution view.
    let eventAttributionView = UIEventAttributionView()

    // Place it over your ad however you'd like.
    eventAttributionView.translatesAutoresizingMaskIntoConstraints = false
    adView.addSubview(eventAttributionView)
    NSLayoutConstraint.activate([
        adView.topAnchor.constraint(equalTo: eventAttributionView.topAnchor),
        adView.leadingAnchor.constraint(equalTo: eventAttributionView.leadingAnchor),
        adView.trailingAnchor.constraint(equalTo: eventAttributionView.trailingAnchor),
        adView.bottomAnchor.constraint(equalTo: eventAttributionView.bottomAnchor)
    ])
}

Testing and Debugging

WebKit has an experimental feature called Private Click Measurement Debug Mode. You’ll find it under Develop–>Experimental Features on macOS and under Settings–>Safari–>Advanced–>Experimental Features on iOS and iPadOS. When you enable this mode and restart Safari, reports go out a mere 10 seconds after the triggering event instead of 24-48 hours later. This allows quick turnaround in testing and debugging.

The debug mode also enables debug output in Web Inspector’s console. This output will show up by default in a later beta.

Remember to disable debug mode once you’re done testing.

Future Enhancements

As is always the case with web standards, proposed or established, there are enhancement requests, corner cases, and a need to evolve the specification as the platform progresses. Below is a list of prominent and relevant issues that may show up as changes to our implementation of PCM in upcoming releases. Please take part on GitHub if you have input.

• Fraud prevention with unlinkable tokens, GitHub issue #27. A proposed solution was presented to W3C Privacy CG in May 2020. It will use what is traditionally called blinded signatures (we call them unlinkable tokens). The intention is to offer websites to cryptographically sign tokens which will be included in attribution reports in a format that makes it impossible to link them back to the event when they were signed. These tokens serve as proof to the report recipient that they trusted the events involved (link click and attribution trigger) without telling them which events.
• Modern JavaScript API for triggering event instead of legacy tracking pixels, GitHub issue #31. The intent here is to let a JavaScript call serve as the triggering event instead of redirected tracking pixels. This will remove the requirement for making third-party requests all together.
• Attribution reports to advertisers too, GitHub issue #53. We have expressed that we’d like the attribution report to be sent to both the click source and the advertiser site. However, this sparked a conversation on sending reports to designated third-parties and you can read and join that conversation in GitHub issue #57.
• Support PCM links in nested iframes, GitHub issue #7. This is about measuring click-through ads served in cross-site iframes. Since subsequent attribution reports will be sent to the first-party click source site, it’s not clear how that first party should control click measurement requested on its behalf. Part of this conversation covers not just serving of ads by third parties but also reporting to such third-parties. The privacy risk of such a scheme is explored in GitHub issue #57.

Misuse or Use Together With Tracking May Lead To Blocking

PCM is intended to support privacy-preserving measurement of clicks across websites or from apps to websites. It is not intended to be used to track users, events, or devices across those contexts.

If PCM is being misused for tracking purposes or being used in conjunction with unrelated means of tracking users, events, or devices, we may block the offending party from using PCM and potential future measurement features.

FAQ

• What about PCM web-to-app? We are interested in this but don’t have a solution yet.
• What about view-through ad attribution? We are interested in this but don’t have a privacy-preserving solution yet.
• Is there a reason why the click has to take the user to the device’s browser? Yes. Stored clicks are valid for 7 days. Let’s assume that the user doesn’t trigger attribution right after they click but want to think about it first. When they choose to re-engage a few hours or days later they will most likely go to their browser and either look up the tab where they left off, use a bookmark they might have saved, use their search provider to find the right webpage, or enter the website’s address directly in the URL bar. For the stored click data to be readily available when the user re-engages in this fashion, the initial click needs to take the user to their browser since PCM data just like other website data is not shared between browsers and WebViews. In short: The user’s browser is the most likely place where delayed click-through attribution will happen.
• Does use of PCM app-to-web require the app to be granted permission to track according to AppTrackingTransparency? No.
• How do users delete stored clicks? Stored clicks are deleted when they delete website data.
• Can users opt out of PCM? Yes. There is a new Safari privacy setting for privacy-preserving ad measurement. If the user has opted out, no click metadata will be stored and no attribution reports will be sent out.
• Is PCM enabled in Private Browsing Mode? No.
• What is the maximum number of parallel ad campaigns per source website or source app? 256, with the actual value being between 0 and 255.
• What is the maximum number of triggering events I can distinguish? 16, with the actual value being between 0 and 15.
• What is the maximum time between a click and a triggering event to still get attribution? 7 days.
• Can I use PCM app-to-web with WebViews? No. Apps have too much control over WebViews for a feature like PCM to be able to protect the data.
• Can I use PCM app-to-web with SFSafariViewController? We are interested in this but don’t have a solution yet.
• Can other default browsers on iOS and iPadOS participate in PCM app-to-web? It is our intention to add such an API at a later point. Please let us know if you are interested.
• Where can I provide feedback? Please file any web-facing issues or issues with the attribution report mechanism directly to WebKit: https://bugs.webkit.org. Please use Feedback Assistant for any issues with UIKit APIs or the Info.plist integration: https://developer.apple.com/bug-reporting/.

Thank You

We’d like to thank the W3C Privacy Community Group for all the work filing issues, suggesting changes, and engaging with us on this work. Please continue to do so as we move forward. Also, a big thank you to the engineers who’ve helped implement this feature – Anant, Kate, Jon, Chris, Jonathan, Chris, and Glen.

Let’s do a small introduction as this is a kind of special post.

As you might already know, last summer Igalia launched the Open Prioritization experiment, and :focus-visible in WebKit was the winner according to the pledges that the different projects got. Now it has moved into collecting funds stage, so far we’ve reached 80% of the goal and Igalia has already started to work on this. If you are interested and want to help sponsoring this work, please visit the project page at Open Collective.

In our regular client projects in Igalia, we provide periodic progress reports about the status of tasks and next plans. This blog post is a kind of monthly report, but this time the project has many customers, so it looks like this is a better format to share information about the status of things. Thank you all for supporting us in this development! 🙏

Understanding :focus-visible

Disclaimer: This is not a blog post explaining how :focus-visible works or the implications it has, you can read other articles if you’re looking for that.

First things first, my initial thoughts were that :focus-visible was a pseduo-class which would match an element when the browser natively shows a focus indicator (focus ring, outline) when an element of a page is focused. And that’s more or less what the spec says on the first sentence:

The :focus-visible pseudo-class applies while an element matches the :focus pseudo-class and the user agent determines via heuristics that the focus should be made evident on the element.

They key part here is that native behavior doesn’t show the focus indicator on purpose in some situations when the :focus pseudo-class matches, mainly because usability studies indicate that showing it in all the cases is not what the user expects and wants. Before having :focus-visible the web authors have not way to access the same criteria to style the focus indicator only when it’s going to be shown natively, and still keep the website being accessible.

Apart from that the spec has a set of heuristics that despite being non-normative, it looks like all implementations are following them. Summarizing them briefly they’d be something like:

• If you use the mouse to focus an element it won’t match :focus-visible.
• If you use the keyboard it’ll match :focus-visible.
• Elements that support keyboard input (like <input> or contenteditable) always match :focus-visible.
• When a script focuses a new element it’ll match or not :focus-visible depending on the previous active element.

This is just a quick & dirty summary, please read the spec for all the details. There have been years of research around these topics (how focus should work or not on the different use cases, what are the users and accessibility needs, how websites are managing focus, etc.) and these heuristics are somehow the result of all that work.

:focus-visible in the default UA style sheet

At this point it looks like we can more or less understand what :focus-visible is about. So let’s start playing with it. The definition seems very clear, but testing things in the current implementations (Chromium and Firefox) you might find some unexpected situations.

Let’s use a very basic example:

<style>
  :focus-visible { background: lime; }
</style>
<div tabindex="0">Focus me.</div>

If you focus the <div> with a mouse click, :focus-visible doesn’t match per spec, so in this case the background doesn’t become green (if you use the keyboard to focus it will match :focus-visible and the background would be green). This works the same in Chromium and Firefox, but Chromium (despite the element doesn’t match :focus-visible) shows a focus indicator. Somehow the first spec definition is already not working as expected on Chromium… The issue here is that Chromium still uses :focus { outline: auto; } in the default UA style sheet, and the element matches :focus after the mouse click, that’s why it’s showing a focus indicator while not matching :focus-visible.

Actually this was already on the spec, but Chromium is not following that yet:

User agents should also use :focus-visible to specify the default focus style, so that authors using :focus-visible will not also need to disable the default :focus style.

There was already a related CSSWG issue on the topic, as the spec currently suggests the following code:

:focus:not(:focus-visible) {
  outline: 0;
}

This works as a kind of workaround for this issue, but if the default UA style sheet uses :focus-visible that won’t be needed.

Anyway, I’ve reported the Chromium bug and created WPT tests, during the tests review Emilio Cobos realized that this needed a change on the HTML spec and he wrote a PR to update it. After some discussion with Alice Boxhall the HTML change and the tests were approved and merged. I even was brave enough to write a patch to change this in Chromium which is still under review and needs some extra work.

The tests

WebKit is the third browser engine adding support for :focus-visible so the first natural step was to import the WPT tests related to the feature. This looked like something simple but it ended up needing some work to improve the tests.

There was a bunch of :focus-visible tests already in the WPT suite, but they need some love:

• Some parts of the spec were not covered by tests, so I added some new tests.
• Some tests were passing in WebKit, even when there was not an implementation yet, so I modified them to fail if there’s no :focus-visible support.

Then I imported the tests in WebKit and I discovered a bug related to focus event and :focus pseudo-class. :focus pseudo-class was not matching inside the focus event handler. This is probably not important for web authors, but :focus-visbile tests were relying on that. Actually this had been fixed in Chromium more than 5 years ago, so first I moved to WPT the Chromium internal test and used it to fix the problem in WebKit.

Once the tests were imported in WebKit, the problem was that a bunch of them were timing out in Mac platforms. After investigating the issue I realized that it’s because focus event is not dispatched when you click on a button in Mac. Digging deeper I found this old bug with lots of discussions on the topic, it looks like this is done to keep alignment with the native platform behavior, and also in order to avoid showing a focus indicator. Even Firefox has the same behavior on Mac. However, Chromium always dispatch the event independently of the platform. This makes that some of the tests don’t work automatically on Mac, as they wait for a focus event that is never dispatched. Anyway maybe once :focus-visible is implemented, it could be rediscussed the possibility of modifying this behavior, thought it might be not possible anyway. In any case, WebKitGTK port, the one I’m using for the development, does trigger the focus event in this case; and I’ve also changed WPE port to do the same (maybe Windows port will follow too).

One more thing about the tests, lots of these :focus-visible tests use testdriver.js to simulate user actions. For example for clicking an element they use test_driver.click(element), however that simple instruction is causing some kind of memory leak on Chromium when running the tests. The actual Chromium bug hasn’t been fixed yet, but I landed some workarounds that prevent the issue in these tests (waiting for the promise to be resolved before marking the test as done).

Status of WPT :focus-visible tests in the different browsers

To close the tests part, you can check the status in wpt.fyi, most of them are passing in all implementations which is great, but there are some interoperability issues that we’ll review next.

Interop issues

As I mentioned the wpt.fyi website helps to easily identify the interop issues between the different implementations.

• :focus-visible on the default UA style sheet: This has been already commented before, but this is the reason why Chromium fails focus-visible-018.html test. Firefox fails focus-visible-017.html because the default UA style sheet mentions outline: auto, but Firefox uses a dotted outline.

• :focus-visible on <select> element: There’s a Firefox failure on focus-visible-002.html because it doesn’t match :focus-visible when you click a <select> element. I opened a CSSWG issue to discuss this, and I initially thought that the agreement was that Firefox behavior is the right one. So I did a patch to change Chromium’s behavior and update the tests, but during the review I was pointed to a Chromium bug about this topic that was closed as WONTFIX, the reason is that when you click a <select> element you can type letters to select the option from the keyboard. Right now the discussion has been reopened and we’ll need to wait for the final resolution on the topic, to see which is the right implementation.

• Keyboard interaction once an element is focused: This is tested by focus-visible-007.html. The example here is that you click an element to focus it, initially the element doesn’t match :focus-visible but then you use the keyboard (for example you type a letter), in that situation Chromium will start matching :focus-visible while Firefox won’t. The spec is quite explicit on the topic so it looks like a Firefox bug:

  If the user interacts with the page via the keyboard, the currently focused element should match :focus-visible (i.e. keyboard usage may change whether this pseudo-class matches even if it doesn’t affect :focus).

• Programmatic focus and :focus-visible: What should happen with :focus-visible when the website uses element.focus() from a script to move the focus? The spec has some heuristics that depend on if the active element before focus() is called was matching (or not) :focus-visible. But I’ve opened a CSSWG issue to discuss what should happen when there’s no active element. The discussion is still ongoing and depending on that there might be changes in the current implementations. Right now there are some subtle differences between Chromium and Firefox here.

:-webkit-direct-focus?

Probably you don’t know what’s that, but it’s somehow related to :focus-visible so I believe it’s worth to mention it here.

WebKit is the browser that supports better :focus pseudo-class behavior on Shadow DOM (see the WPT tests results). The issue here is that the ShadowRoot should match :focus if some of the descendants are focused, so if you have an <input> element in the Shadow Tree, and you focus it, you’ll have 2 elements matching :focus the ShadowRoot and the <input>.

<style>
  #host {  padding: 1em; background: lightgrey; }
  #host:focus { background: lime; }
</style>
<div id="host"></div>
<script>
  shadowRoot = host.attachShadow(
    {mode: 'open', delegatesFocus: true});
  shadowRoot.innerHTML =
    '<input value="Focus me">';
</script>

In Chromium if you use delegatesFocus=true in element.attachShadow(), and you have an example like the one described above, you’ll get two focus indicators, one in the ShadowRoot and one in the <input>. Firefox doesn’t match :focus in the ShadowRoot so the issue is not present there.

WebKit matches :focus independently of delegatesFocus value (which is the right behavior per spec), so it’d be even more common to have a situation of getting two focus indicators. To avoid that WebKit introduced :-webkit-direct-focus pseudo-class, that is not web exposed, but it’s used in the default UA style sheet to avoid this bad effect of having a focus indicator on the ShadowRoot.

I believe :focus-visible spec should describe that behavior regarding how it works on ShadowRoot so it doesn’t match on those situations. That way WebKit could get rid of :-webkit-direct-focus and use :focus-visible once it’s implemented. I’ve reported a CSSWG issue to discuss this topic.

WIP implementation

So far I haven’t talked about the implementation at all, but the reason is that all the previous work is required in order to be able to do a proper implementation, with good quality and that is interoperable between the different browsers. :focus-visbile is a new feature, and despite all the interop mess regarding how focus works in the different browsers and platforms, we should aim to have a :focus-visible implementation as much interoperable as possible.

Despite all this related work, I’ve also found some time to work on a patch. It’s still not ready to be sent upstream but it’s already doing some things and passing some of the WPT tests. Of course several things are still missing, but next you can see quick screen recording with :focus-visible working on WebKit.

:focus-visible example running on WebKitGTK MiniBrowser

Some numbers

I know this is not really relevant, but it helps to get a grasp on what has been happening during this month:

• 3 CSSWG issues reported.
• 13 PRs merged in WPT.
• 5 patches landed in WebKit.
• 4 patches landed in Chromium.
• And many discussions with different people, special thanks to Alice and Emilio that have been really helpful.

Next steps

The plan for February is to try to find an agreement on the CSSWG issues, close them, and update the WPT tests accordingly. Maybe this work could include even landing some patches on the current implementations. And of course, focus (pun intended) the effort on implementation of :focus-visible in WebKit.

I hope this blog post helps you to understand better the work that goes behind the scenes when a web platform feature is implemented, especially if you want to do it on a way that ensures browser interoperability and reduces web authors’ pain.

If you enjoyed this project update, stay tuned as there will more in the future.

Safari Technology Preview Release 119 is now available for download for macOS Big Sur and macOS Catalina. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

This release covers WebKit revisions 270749-271358.

Web Inspector

• Elements
  • Enabled independent Styles details sidebar panel in the Elements Tab by default (r271319)
  • Improved the visibility of values by de-emphasizing range information in the Font details sidebar panel (r271329)
• Timelines
  • Added a banner to the JavaScript Allocation timeline when new heap snapshots are added that are immediately filtered (r271236)

Speech Recognition

• Enabled SpeechRecognition by default (r270854)
• Added webkit- prefix to SpeechRecognition (r270868)
• Added availability check of speech recognition service before requesting permissions (r271031)
• Changed to fail speech recognition when the page is muted for audio capture (r271154)
• Implemented recognizer for SpeechRecognition (r270772)
• Stopped speech recognition if page becomes invisible (r271169, r271205)

CSS

• Added support for aspect-ratio on positioned elements (r271061)
• Changed to take aspect-ratio into account for percentage resolution (r271293)
• Fixed an issue where toggling pointer-events on <body> prevented child elements from scrolling (r270849)
• Fixed CSS Scroll Snap when the user scrolls via the keyboard (r270838)
• Fixed :focus to match inside the focus event (r271146)
• Fixed the default namespace getting ignored inside non-type selectors for :is() and :not() (r270955)
• Fixed width: max-content with box-sizing: border-box to leave space for padding (r271003)
• Implemented ::file-selector-button pseudo-element (r270784)
• Prevented layout overflow from being computed incorrectly inside Flexbox and breaking sticky positioning (r271053)

Scrolling

• Fixed scrolling issues when scrolling on only one axis is enabled (r271090)
• Sibling element wheel event regions can be wrong (r271054)

JavaScript

• Fixed non-enumerable property to shadow inherited enumerable property from for-in (r270874)
• Fixed Intl.DateTimeFormat#formatRange to generate the same output to Intl.DateTimeFormat#format if startDate and endDate are “practically-equal” (r271224)
• Implemented arbitrary-module-namespace-identifier-names (r270923)
• Improved performance of Object rest and spread (r271343)

Media

• Used low-power audio buffer sizes for more output devices (r270943)
• Updated the video element to ignore requests to enter or exit fullscreen before the current fullscreen mode change is completed (r271341)

WebAssembly

• Added support for memory.copy, memory.init, and data.drop behind flag (r270948)
• Added support for memory.fill behind flag (r270855)
• Added support for type-annotated select behind flag (r270827)
• Updated WebAssembly instance’s exports object (r271112)
• Updated WebAssembly multi-value to iterate iterable result from JS function first before converting values (r271113)
• Updated WebAssembly Table/Memory/Global to allow inheritance (r271115)
• Implemented WebAssembly BigInt handling (r271168)

Web Animations

• Fixed animation issue on sibling elements caused by style sharing (r270837)

Accessibility

• Fixed aria-orientation getting ignored on input[type="range"] (r271166)
• Implemented prefers-contrast: more (r270823)
• Updated list heuristics to include linked lists inside navigation containers (r270896)

Web API

• Adjusted date input placeholder color based on specified text color (r270875)
• Corrected the intrinsic size stored for SVG images (r271129)
• Fixed “Open with Preview” menu item in PDF context menus on Big Sur (r270946)
• Fixed some issues with PDFs as <object>. (r270998)
• Fixed Service Worker inspection (r271294)
• Changed text fields to not be translated while typing (r271262)

Bug Fixes

• Fixed text content alignment inside an inline-block element (r271284)
• Fixed inline block baseline with clipped overflow (r271348)

Safari Technology Preview Release 118 is now available for download for macOS Big Sur and macOS Catalina. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

This release covers WebKit revisions 270230-270749.

Web Inspector

• Elements
  • Added an experimental Font details sidebar panel for showing information about the currently used font of the selected node (r270637)
• Sources
  • Added support for intercepting and overriding network requests (r270604)

CSS

• Implemented Definite and Indefinite Sizes in flexbox (r270578)
• Corrected cases in which box-sizing was border-box and didn’t use the content box to compute size based on aspect ratio (r270617)
• Fixed preserving aspect ratio when computing cross size of flexed images in auto-height flex container (r270288)
• Added support for aspect-ratio on replaced and non-replaced elements (r270551, r270618)
• Changed text-decoration-color animation not to be discrete (r270597)
• Changed getComputedStyle rounding lineHeight to nearest pixel (r270248)
• Changed to trigger web font loads earlier (r270590)

Scrolling

• Made only the first wheel event in a gesture to be cancelable (r270425)

JavaScript

• Enabled “at” methods (r270550)
• Changed get and set for object literal and class to not be escaped (r270487)
• Accepted escaped keywords for class and object property names (r270481)
• Aligned %TypedArray% constructor/slice behavior with the specification strictly (r270552, r270371)
• Added a JSC API to allow acquiring the JSLock to accelerate performance (r270659)
• Removed unnecessary JSLock use from various JSC APIs (r270665)
• Aligned [[DefineOwnProperty]] method of mapped arguments object with the specification strictly (r270664)
• Changed Reflect.preventExtensions not throwing if called on WindowProxy or Location (r270702)

WebGL

• Fixed rasterizer discard interfering with implicit clears in WebGL 2 (r270253)

Media

• Implemented WebVTT VTTCue region attribute (r270738)

Private Click Measurement

• Exposed an API for enabling or disabling Private Click Measurement (r270710)

WebRTC

• Added support for RTCRtpSender::setStreams (r270486)
• Enabled use of new socket API for WebRTC TLS connections by default (r270680)
• Fixed ICE not resolving for turns relay candidates rooted in LetsEncrypt CA (r270626)
• Improved RTCRtpSender and RTCRtpReceiver transforms support (r270641, r270290, r270294, r270507, r270532)
• Introduced an experimental flag specific to VP9 profile 2 (r270256)

Web API

• Changed to allow blob URLs with fragments (r270269)
• Fixed lazy loaded iframe to not lazy load when scripting is disabled (r270300)
• Changed Reflect.preventExtensions to not throw if called on WindowProxy or Location (r270702)
• Changed sessionStorage to not be cloned when a window is opened with rel=noopener (r270273)
• Updated the list of blocked ports according fetch specification (r270321)

Accessibility

• Fixed VoiceOver not announcing the aria-checked state for ARIA treeitem (r270333)

Extensions

• Fixed the onClicked listener not being called for page actions

2020 is not a great year to do any kind of recap, but there have been some positive things happening in Igalia during this year. Next you can find a highlight of some of these things in no particular order.

CSS Working Group A Coruña F2F

The year couldn’t start better, on January Igalia hosted a CSS Working Group face-to-face meeting in our office in A Coruña (Galicia, Spain). Igalia has experience arranging other events in our office, but this was the first time that the CSSWG came here. It was an amazing week and I believe everyone enjoined the visit to this corner of the world. 🌍

Fantastic @CSSWG meeting hosting by @igalia.@svgeesus and I are so incredibly grateful that they are providing childcare for us, for all three days of the meeting, on the same floor. ❤️
Setting the bar high!

— Lea Verou (@LeaVerou) January 22, 2020

Brian Kardell from Igalia was talking to everybody about Container Queries. This is one of the features that web authors have been asking for since ever, and Brian was trying to push the topic forward and find some kind of solution (even if not 100% feature complete) for this topic. In that week there were discussions about the relationship with other topics like Resize Observer or CSS Containment, and new ideas appeared too. Brian posted a blog post after the event, explaining some of those ideas. Later my colleague Javi Fernández worked on an experiment that Brian mentioned on a recent post. The good news is that all these conversations managed to bring this topic back to life, and past November Google announced that they have started working on a Container Queries prototype in Chromium.

During the meeting Jen Simmons (in Mozilla at that time, now in Apple) presented some topics from Mozilla, including a detailed proposal for Masonry Layout based on Grid, this has been something authors have also showed interest, and Firefox has already a prototype implementation behind a runtime flag.

Apart from the three days full of meetings and interesting discussions, some of the CSSWG members participated in a local meetup giving 4 nice talks:

• Who Designed This? Where Web Platform features come from, and how to get involved by Rachel Andrew.
• Getting Browser Bugs Fixed by Alan Stearns.
• Line Breaking. Controlling Line Breaking with CSS by Florian Rivoal.
• Finessing Forced-Colors: Tailoring the High Contrast Experience by Rossen.

Finally, I remember some corridor conversations about the Mozilla layoffs that had just happened just a few days before the event, but nobody could expect what was going to happen during the summer. It looks like 2020 has been a bad year for Mozilla in general and Servo in particular. 😢

Open Prioritization

This summer Igalia launched the Open Prioritization campaign, where we proposed a list of topics to be implemented on the different browser engines, and people supported them with different pledges; I wrote a blog post about it by that time.

Open Prioritization: :focus-visible in Safari/WebKit

This was a cool experiment, and it looks like a successful one, as :focus-visible in WebKit/Safari has been the winner. Igalia is currently collecting funds through Open Collective in order to start the implementation of :focus-visible in WebKit, you still have time to support it if you’re interested. If everything goes fine this should happen during the first quarter of 2021. 🚀

Igalia Chats

This actually started in later 2019, but it has been ongoing during the whole 2020. Brian Kardell has been recording a podcast series about the web platform and some of its features with different people from the industry. They have been getting more and popular, and Brian was even asked to record one of these for the last BlinkOn edition.

So far 8 episodes of around 1 hour length have been published, with 13 different guests. More to come in 2021! If you are curious and want to know more, you can find them at Igalia website or in your favourite podcasting platform.

Igalia contributions

This is not a comprehensive list but just some highlights of what Igalia has been doing in 2020 around CSS:

• list-style-type: <string> in Chromium and WebKit.
• ::marker pseudo-element in Chromium.
• CSS Logical Properties shorthands in Chromium and WebKit.
• Flexbox gutters (and many other fixes) in WebKit.
• line-break: anywhere in Chromium and WebKit.
• overflow-wrap: anywhere in Chromium.
• Trailing ideographic spaces support in Chromium.

We’re working on a demo about these features, that we’ll be publishing next year.

Blink API OWNER

In February Chromium published the requirements to become API owner. Due to my involvement on the Blink project since the fork from WebKit back in 2013, I was nominated and became Blink API Owner past March. 🥳

Yoav Weiss on the BlinkOn 13 Keynote announcing me as API owner

The API owners met on a weekly basis to review the intent threads and discuss about them, it’s an amazing learning experience to be part of this group. In my case when reviewing intents I usually pay attention to things related to interoperability, like the status of the spec, test suites and other implementations. In addition, I have the support from all my awesome colleagues at Igalia that help me to play this role, thank you all!

2021 and beyond…

Igalia keeps growing and a bunch of amazing folks will join us soon, particularly Delan Azabani and Felipe Erias are already starting these days as part of the Web Platform team.

Open Prioritization should have the first successful project, as :focus-visible is advancing funding and it gets implemented in WebKit. We hope this can lead to new similar experiments in the future.

And I’m sure many other cool things will happen at Igalia next year, stay tuned!

CSS Transforms appeared on the Web along with CSS Animations and CSS Transitions to add visual effects and motion on the Web. Those technologies have been a staple of the Web platform and Web developers’ toolkit for well over a decade. In fact, the CSS transform property first shipped in Safari all the way back in July 2008 when iPhone OS 2.0 shipped. You can find some historical posts about initial support in WebKit from October 2007, and another post from July 2009 focusing on 3D transforms when CSS Transforms shipped in Mac OS X Leopard.

And now, there is some news in the world of CSS Transforms: individual transform properties are enabled by default in Safari Technology Preview 117. This means that, as in Firefox and Chrome Canary, you can now use the new translate, rotate and scale CSS properties to specify what have so far been functions of the transform property, including 3D operations.

Using these properties is simple and should make Web developers feel right at home. Consider these two equivalent examples:

div.transform-property {
    transform: translate(100px, 100px) rotate(180deg) scale(2);
}

div.individual-properties {
    translate: 100px 100px;
    rotate: 180deg;
    scale: 2;
}

But why would you use these new properties over the transform property? One reason is convenience, as you might deem it simpler to write scale: 2 rather than transform: scale(2) when all you intend to do is scale an element.

But I think the main draw here is that you are now free to compose those various transform properties any way you see fit. For instance, you can easily write a CSS class to flip an element using the scale property without worrying that you might override other transform-related properties:

.flipped {
    scale: -1;
}

Your flipped class will work just fine even if a rotate or transform property applies a rotation to the element.

This feature also comes in handy when animating transforms. Let’s say you’re writing an animation that scales an element up over its entire duration but also applies a rotation for the second half of that animation. With the transform, property you would have had to pre-compute what the intermediate values for the scale should have been when the rotation would start and end:

@keyframes scale-and-rotate {
    0%   { transform: scale(1) }
    50%  { transform: scale(1.5) rotate(0deg) }
    100% { transform: scale(2) rotate(180deg) }
}

While this may not look like such a big deal when you look at it, making any further changes to those keyframes would require recomputing those values. Now, consider this same animation written with the individual transform properties:

@keyframes scale-and-rotate {
    0%   { scale: 0 }
    50%  { rotate: 0deg } 
    100% { scale: 1; rotate: 180deg; }
} 

You can easily change the keyframes and add other properties as you like, leaving the browser to work out how to correctly apply those individual transform properties.

But that’s not all; there is also the case where you want separate animations to apply to an element at the same time. You could split out this single set of keyframes into two different sets and tweak the timing instead:

.animated {
    /* Apply the scale keyframes for 1s and the rotate
       keyframes for 500ms with a 500ms delay. */
    animation: scale 1s, rotate 500ms 500ms;
}

@keyframes scale {
    from { scale: 0 }
    to   { scale: 1 }
}

@keyframes rotate {
    from { rotate: 0deg }
    to   { rotate: 180deg }
}

Now keyframes applying to transforms are not only easier to author, but you can better separate the timing and the keyframes by composing multiple transform animations. And if you are a seasoned CSS Animations developer, you’ll know how important this can be when you factor in timing functions.

Additionally, animating the new individual transform properties retains the same great performance as animating the transform property since these properties support hardware acceleration.

But what about the transform property? How does it relate to those new individual transform properties?

First, remember that the transform property supports transform functions that are not represented as individual transform properties. There are no equivalent CSS properties for the skew(), skewX() and skewY() functions and no property equivalent to the matrix() function.

But what happens when you specify some of the individual transform properties as well as the transform property? The CSS Transform Level 2 specification explains how individual transform properties and the transform-origin and transform properties are composed to form the current transformation matrix. To summarize, first the individual transform properties are applied – translate, rotate, and then scale – and then the functions in the transform property are applied.

This means that there’s a clear model to use those individual transform properties and the transform property together to enhance your ability to transform content on the Web platform.

And before you start using these new properties, it is important that you know how to detect their availability and use transform as a fallback. Here, the @supports rule will allow you to do what you need:

@supports (translate: 0) {
    /* Individual transform properties are supported */
    div {
        translate: 100px 100px;
    }
}

@supports not (translate: 0) {
    /* Individual transform properties are NOT supported */
    div {
        transform: translate(100px, 100px);
    }
}

We encourage you to start exploring how to use those three new properties in Safari Technology Preview in your projects and file bug reports on bugs.webkit.org should you encounter unexpected issues. You can also send a tweet to @webkit or @jonathandavis to share your thoughts on individual transform properties.

Safari Technology Preview Release 117 is now available for download for macOS Big Sur and macOS Catalina. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

This release covers WebKit revisions 268651-270230.

Web Inspector

• Elements
  • Added the option to “Edit Breakpoint…” or “Reveal Breakpoint” in Sources Tab (r269337)
  • Extra closing parenthesis added after var in styles panel (r269201)
• Network
  • Fixed background color of rows from previous session (r269127)
  • Truncated data URLs in the Resources sidebar and Headers panel (r269075)
• Search
  • Prevented stealing focus from the search field when shown (r269074)
• Sources
  • Changed the default breakpoint action to be evaluate (r269547)
• Console
  • Exposed console command line API to breakpoint conditions and actions (r269023, r269044)
  • Fixed using Show JavaScript Console in an empty tab in Safari Technology Preview (r270060)
• Other Changes
  • Updated styles to use CSS properties with neutral directionality (r269166)

CSS

• Added support for discrete animations of many CSS properties (r269812, r269333, r269357, r268792, r268718, r268726)
• Added support for animations on more pseudo-elements (such as :marker) (r269813)
• Added support for more properties on ::marker (r269774)
• Added parse support for aspect-ratio CSS property (r269641)
• Made CSS font shorthands parsable within a worker (r269957)
• Changed images as flex items to use the overridingLogicalHeight when defined to compute the logical width (r270073)
• Changed images as flex items to use the overridingLogicalWidth when defined to compute the logical height (r270116)
• Changed background-size to not accept negative values (r269237)
• Fixed issues with percentage height on grid item replaced children when the grid item has a scrollbar (r269717)
• Serialized aspect ratio with spaces around the slash (r268659)

JavaScript

• Enabled static public class fields (r269922, r269939)
• Enabled static and instance private class fields (r270066)
• Implemented Intl.DateTimeFormat.formatRangeToParts (r269706)
• Implemented Intl.ListFormat (r268956)
• Aligned %TypedArray% behavior with recent spec adjustments (r269670)
• Implemented @@species support in ArrayBuffer#slice (r269574)
• Fixed toLocaleDateString() resolving incorrect date for some old dates (r269502)
• Resurrected SharedArrayBuffer and Atomics behind a flag (JSC_useSharedArrayBuffer=1) (r269531)

WebAssembly

• Added wasm atomics instructions, partially behind a flag (JSC_useSharedArrayBuffer=1) (r270208)
• Fixed opcodes for table.grow and table.size (r269790)
• Implemented shared WebAssembly.Memory behind a flag (JSC_useSharedArrayBuffer=1) (r269940)
• Implemented i32 sign-extension-ops (r269929)

Web API

• Added proper garbage collection to ResizeObserver (r268860)
• Changed Worklet.addModule() to reject promise with an AbortError when the network load fails (r270033)
• Changed event targets to be cleared after dispatch if the target pointed to a shadow tree (r269546)
• Changed WebSocket constructor to not throw when the port is blocked (r269459)
• Fixed toggling dark mode to update the scrollbar appearance in overflow: scroll elements (r269437)
• Fixed navigator.clipboard to be exposed on *.localhost pages (r269960)
• Fixed auto-focus of text input to not select text (r269587)
• Fixed Canvas drawImage to not raise an IndexSizeError on empty sources (r270126)
• Fixed getIndexedParameter indexing crash (r270160)
• Fixed text getting clobbered when assigning to input.defaultValue (r269528)
• Fixed <input disabled> to fire click events after dispatchEvent (r269452)
• Fixed the space between minute and meridiem fields in time inputs being too large (r270148)
• Fixed window.event to not be affected by nodes moving post-dispatch (r269500)
• Improved exception messages when AudioContext.suspend() / resume() promises are rejected (r268999)
• Promises returned by our DOM API have the caller’s global instead of the callee’s (r269227)
• Removed unneeded whitespace between content and <br> (r268958, r269036)

Speech Recognition

• Added audio capture for SpeechRecognition (r270158)
• Added a default action for SpeechRecognition permission request (r269918)
• Implemented basic permission check for SpeechRecognition (r269810)

WebRTC

• Added WebRTC SFrame transform (r269830)
• Added infrastructure for WebRTC transforms (r269764)
• Added support for RTCPeerConnection.onicecandidateerror event (r270101)
• Added support for RTCRtpScriptTransform (r270107)
• Added support for VP9 Profile 2 (10-bit color) in WebRTC (r268971)
• Increased camera failing timer to 30 seconds (r269190)

Media

• A video element may fail to enter picture-in-picture from fullscreen (r268816)
• Added handling trackId changes across Initialization Segments in MSE (r269121)
• Added addOutput() and removeOutput() utility functions to AudioSummingJunction (r268820)
• Added skeleton implementation of Media Session API (r268735)
• Changed to ensure WebAudio API throws exceptions with useful error messages (r268812)
• Changed AudioBuffer channels to be neuterable and detachable (r269108)
• Fixed an infinite loop in sample eviction when duration is NaN in MSE (r270106)
• Fixed Web Audio continuing to play when navigating off the web page via an iframe (r268893)
• Fixed poor resampling quality when using AudioContext sampleRate parameter (r270141, r270157)
• Fixed AudioBuffer.getChannelData(x) to keep returning the same JavaScript wrapper for a given channel (r269081)
• Fixed AudioContext.suspend() to not reject promise when the audio session is interrupted (r269039)
• Fixed transparent video poster image to keep element transparent once the first frame is preloaded (r269407)
• Fixed fetching an audio worklet module using a data URL (r270046)
• Improved the speed of audio and video element creation up to 50x faster (r269077)

Web Animations

• Ensured animation updates are not scheduled when there are no styles to update (r269963)
• Fixed KeyframeEffect.pseudoElement to return a valid string when targeting ::marker or ::first-letter (r269623)
• Fixed accelerated animations of individual transform properties to apply rotate before scale (r269527)

Scrolling

• Changed programmatic scroll to stop rubberbanding (r269373, r269559)
• Changed to update scrolling geometry immediately for programmatic scrolls (r269558)

Scroll Snap

• Fixed scroll snap specified on :root (r269506)
• Fixed scroll-snap on root aligning to the body margin edge, not the viewport edge (r269622)
• Made axis in scroll-snap-type required (r268665)
• Made scroll-margin independent of scroll snapping and applied it when scrolling to anchors (r269144)
• Made scroll-padding independent of scroll-snap and have it affect scrollIntoView (r270023)
• Stopped creating implicit snap points at scrollmin and scrollmax (r268856)

Private Click Measurement

• Added persistence for pending ad clicks and attributions so they survive browser restart (r270136)
• Changed to accept ad click data when the link opens a new window (r269129)
• Changed attribute and JSON key names according to the W3C conversation (r269886)
• Switched to JSON report format (r269489)

Web Driver

• Added handling for surrogate pairs in keyboard actions (r269421)
• Added support for a sequence of character key presses (r269035)
• Added handling HTTPS configuration for WebDriver tests (r268723)
• Fixed elements in Shadow DOM incorrectly marked as stale (r268867)

Over the past few months the WebKit development team has been working on modernizing support for the WebAudio specification. This post highlights some of the changes that were recently merged, focusing on the GStreamer ports.

My fellow WebKit colleague, Chris Dumez, has been very active lately, updating the WebAudio implementation …

I used to regard myself as an austere programmer in terms of tooling: Emacs —with a plain configuration— and grep. This approach forces you to understand all the elements involved in a project.

Some time ago I have to code in Rust, so I needed to learn the language as fast as possible. I looked for packages in MELPA that could help me to be productive quickly. Obviously, I installed rust-mode, but I also found racer for auto-completion. I tried it out. It was messy to setup and unstable, but it helped me to code while learning. When I felt comfortable with the base code, I uninstalled it.

This year I returned to work on WebKit. The last time I contributed to it was around five years ago, but now in a different area (still in the multimedia stack). WebKit is huge, and because of C++, I found gtags rather limited. Out of curiosity I looked for something similar to racer but for C++. And I spent a while digging on it.

The solution consists in the integration of three MELPA packages:

• lsp-mode: a client for Language Server Protocol for Emacs.
• company-mode: a text completion framework.
• ccls: A C/C++ language server. Besides emacs-ccls adds more functionality to lsp-mode.

(I known, there’s a simpler alternative to lsp-mode, but I haven’t tried it yet).

First we might explain what’s LSP. It stands for Language Server Protocol, defined with JSON-RPC messages, between the editor and the language server. It was orginally developed by Microsoft for Visual Studio, which purpose is to support auto-completion, finding symbol’s definition, to show early error markers, etc., inside the editor. Therefore, lsp-mode is an Emacs mode that communicates with different language servers in LSP and operates in Emacs accordingly.

In order to support the auto-completion use-case lsp-mode uses the company-mode. This Emacs mode is capable to create a floating context menu where the editing cursor is placed.

The third part of the puzzle is, of course, the language server. There’s a language servers for different programming languages. For C & C++ there are two servers: clangd and ccls. The former uses Clang compiler, the last can use either Clang, GCC or MSVC. Along this text ccls will be used for reasons exposed later. In between, emacs-ccls leverages and extends the support of ccls in lsp-mode, though it’s not mandatory.

In short, the basic .emacs configuration, using use-package, would have these lines:

(use-package company
  :diminish
  :config (global-company-mode 1))

(use-package lsp-mode
  :diminish "L"
  :init (setq lsp-keymap-prefix "C-l"
              lsp-enable-file-watchers nil
              lsp-enable-on-type-formatting nil
              lsp-enable-snippet nil)
  :hook (c-mode-common . lsp-deferred)
  :commands (lsp lsp-deferred))

(use-package ccls
  :init (setq ccls-sem-highlight-method 'font-lock)
  :hook ((c-mode c++-mode objc-mode) . (lambda () (require 'ccls) (lsp-deferred))))

The snippet first configures company-mode. It is enabled globally because, normally, it is a nice feature to have, even in non-coding buffers, such as this very one, for writing a blog post in markdown format. Diminish mode hides or abbreviates the mode description in the Emacs’ mode line.

Later comes lsp-mode. It’s big and aims to do a lot of things, basically we have to tell it to disable certain features, such as file watcher, something not viable in massive projects as WebKit; as I don’t use snippet (generic text templates), I also disable it; and finally, lsp-mode tries to format the code at typing, I don’t know how the code style is figured out, but in my experience, it’s always detected wrong, so I disabled it too. Finally, lsp-mode is launched when a text uses the c-mode-common, shared by c++-mode too. lsp-mode is launched deferred, meaning it’ll startup until the buffer is visible; this is important since we might want to delay ccls session creation until the buffer’s .dir-locals.el file is processed, where it is configured for the specific project.

And lastly, ccls-mode configuration, hooked until c-mode or c++-mode are loaded up in a deferred fashion (already explained).

It’s important to understand how ccls works in order to integrate it in our workflow of a specific project, since it might need to be configured using Emacs’ per-directory local variales.

We are living in a post-Makefile world (almost), proof of that is ccls, which instead of a makefile, it uses a compilation database, a record of the compile options used to build the files in a project. It’s commonly described in JSON and it’s generated automatically by build systems such as meson or cmake, and later consumed by ninja or ccls to execute the compilation. Bear in mind that ccls uses a cache, which can eat a couple gigabytes of disk.

Now, let’s review the concrete details of using these features with WebKit. Let me assume that WebKit local repository is cloned in ~/WebKit.

As you may know, the cool way to compile WebKit is with flatpak. Flatpak adds an indirection in the compilation process, since it’s done in an isolated environment, above the native system. As a consequence, ccls has to be the one inside the Flatpak environment. In ~/.local/bin/webkit-ccls:

#!/bin/sh
set -eu
cd $HOME/WebKit/
exec Tools/Scripts/webkit-flatpak -c ccls "$@"

Basically the scripts calls ccls inside flatpak, which is available in the SDK. And this is why ccls instead of clang, since clang is not provided.

By default ccls assumes the compilation database is in the project’s root directory, but in our case, it’s not, thus it is required to configure the database directory for our WebKit setup. For it, as we already said, a .dir-locals.el file is used.

((c-mode
  (indent-tabs-mode . nil)
  (c-basic-offset . 4))
 (c++-mode
  (indent-tabs-mode . nil)
  (c-basic-offset . 4))
 (java-mode
  (indent-tabs-mode . nil)
  (c-basic-offset . 4))
 (change-log-mode
  (indent-tabs-mode . nil))
 (nil
  (fill-column . 100)
  (ccls-executable . "/home/vjaquez/.local/bin/webkit-ccls")
  (ccls-initialization-options . (:compilationDatabaseDirectory "/app/webkit/WebKitBuild/Release"
                                  :cache (:directory ".ccls-cache")))
  (compile-command . "build-webkit --gtk --debug")))

As you can notice, ccls-execute is defined here, though it’s not a safe local variable. Also the ccls-initialization-options, which is a safe local variable. It is important to notice that the compilation database directory is a path inside flatpak, and always use the Release path. I don’t understand why, but Debug path didn’t work for me. This mean that WebKit should be compiled as Release frequently, even if we only use Debug type for coding (as you may see in my compile-command).

Update: Now we can explain why it’s important to configure lsp-mode as deferred: to avoid connections to ccls before processing the .dir-locals.el file.

And that’s all. Now I have early programming errors detection, auto-completion, and so on. I hope you find these notes helpful.

Update: Sadly, because of flatpak indirection, symbols’ definition finding won’t work because the file paths stored in ccls cache are relative to flatpak’s file system. For that I still rely on global and its Emacs mode.

Safari Technology Preview 105 and Safari in the latest iOS 14.3 beta enabled support for the MediaRecorder API by default. This API takes as input live audio/video content to produce compressed media. While the immediate use case is to record from the camera and/or microphone, this API can take any MediaStreamTrack as input, be it a capture track, coming from the network using WebRTC, or generated from HTML (Canvas, WebAudio), as illustrated in the chart below.

The generated output, exposed as blobs, can be readily rendered in a video element to preview the content, edit it, and/or upload to servers for sharing with others.

This API can be feature-detected, as can the set of supported file/container formats and audio/video codecs. Safari currently supports the MP4 file format with H.264 as video codec and AAC as audio codec. MediaRecorder support can be checked as follows:

function supportsRecording(mimeType)
{
    if (!window.MediaRecorder)
        return false;
    if (!MediaRecorder.isTypeSupported)
        return mimeType.startsWith("audio/mp4") || mimeType.startsWith("video/mp4");
    return MediaRecorder.isTypeSupported(mimeType);
}

The following example shows how camera and microphone can be recorded as mp4 content and locally previewed on the same page.

<html>
<body>
<button onclick="startRecording()">start</button><br>
<button onclick="endRecording()">end</button>
<video id="video" autoplay playsInline muted></video>
<script>
let blobs = [];
let stream;
let mediaRecorder;
async function startRecording()
{
    stream = await navigator.mediaDevices.getUserMedia({ audio: true, video: true });
    mediaRecorder = new MediaRecorder(stream);
    mediaRecorder.ondataavailable = (event) => {
       // Let's append blobs for now, we could also upload them to the network.
       if (event.data)
            blobs.push(event.data);
    }
    mediaRecorder.onstop = doPreview;
    // Let's receive 1 second blobs
    mediaRecorder.start(1000);
}
function endRecording()
{
    // Let's stop capture and recording
    mediaRecorder.stop();
    stream.getTracks().forEach(track => track.stop());
}
function doPreview()
{
    if (!blobs.length)
        return;
    // Let's concatenate blobs to preview the recorded content
    video.src = URL.createObjectURL(new Blob(blobs, { type: mediaRecorder.mimeType }));
}
</script>
</body>
</html>

Future work may extend the support to additional codecs as well as supporting options like video/audio bitrates.

getUserMedia in WKWebView

Speaking of Safari in latest iOS 14.3 beta and local capture, navigator.mediaDevices.getUserMedia can now be exposed to WKWebView applications. navigator.mediaDevices.getUserMedia is automatically exposed if the embedding application is able to natively capture either audio or video. Please refer to Apple documentation to meet these requirements. Access to camera and microphone is gated by a user prompt similar to Safari and SafariViewController prompts. We hope to extend WKWebView APIs to allow applications to further control their camera and microphone management in future releases.

We hope you will like these new features. As always, please let us know if you encounter any bugs (or if you have ideas for future enhancements) by filing bugs on bugs.webkit.org.

We look at the implementation of the for-of intrinsic in 32bit JSC (JavaScriptCore).

Safari Technology Preview Release 116 is now available for download for macOS Big Sur and macOS Catalina. If you already have Safari Technology Preview installed, you can update in the Software Update pane of System Preferences on macOS.

This release covers WebKit revisions 267959-268651.

Web Extensions

• Added support for non-persistent background pages
• Fixed browser.tabs.update() to accept calls without a tabId parameter
• Fixed browser.tabs.update() to allow navigations to a URL with a custom scheme

Web Inspector

• Sources
  • Added support for creating a local override from resources that failed to load (r267977)
  • Added a + to the Local Overrides section in the navigation sidebar to streamline creating custom local overrides (r267979)
  • Fixed issue where event breakpoints were not editable after being added (r267976)
  • Fixed issue where line-based JavaScript breakpoints were not added on reload (r268629)
  • Fixed issue where the Sources Tab had wrong icon when paused (r268427)

Web Audio API

• Enabled AudioWorklet API by default (r268459)
• Added implementation for AudioWorkletGlobalScope.registerProcessor() (r268103)
• Added implementation for AudioWorkletGlobalScope‘s currentFrame, currentTime, and sampleRate attributes (r268076)
• Changed to use AudioWorkletProcessor to process audio (r268365)
• Changed calling AudioContext.resume() right after AudioContext.suspend() to be a no-op (r268368)
• Changed AudioWorkletGlobalScope to perform a microtask checkpoint after each rendering quantum (r268369)
• Fixed parameters argument for AudioWorkletProcessor.process() to be spec-compliant (r268414)

MediaRecorder

• Enabled video capture by default on macOS (r268052)
• Added support for MediaRecorder bitrate getters (r268363)
• Added support for MediaRecorder pause and resume (r268130)
• Added support for respecting enabled and muted tracks (r267987)
• Added support for BlobEvent.timecode (r268136)
• Fixed MediaRecorder .stop to not throw in Inactive state (r268477)
• Made sure to fire the correct set of events in case MediaRecorder stream has track changes (r268119)

CSS

• Added support for the individual transform properties translate, rotate, scale, including accelerated animation (r267985, r268627)
• Fixed flex-grow property to be animatable (r268516)
• Fixed CSS image-orientation: none to be ignored for cross-origin images (r268249)
• CSS transform computed style should not reflect individual transform properties (r268263)
• Added painting CSS highlights over images (r268487)
• Fixed clip-path: path() ignoring page zooming (r268138)
• Fixed background-clip: var(--a) invalidating -webkit-background-clip: text when --a: text (r268158)

Rendering

• Respect the font size when presenting the <select> dropdown when custom fonts are used (r268126)

JavaScript

• Changed arguments.callee to become ThrowTypeError if the function has a complex-parameter-list (spec-term) (r268323)
• Changed BigInt constructor to be constructible while it always throws an error (r268322)
• Fixed Array.prototype.sort‘s sortBucketSort which accessed an array in an invalid way leading to incorrect results with indexed properties on the prototype chain (r268375)
• Improved the essential internal methods for %TypedArray% to adhere to spec (r268640)

WebAuthn

• Removed the alg field from the attestation statement (r268602)

Media

• Fixed AirPlay menu not showing up when the AirPlay button is clicked (r268308)
• Improved computation of default audio input and output devices (r268396)

Web API

• Allowed passive mouse wheel event listeners to not force synchronous scrolling (r268476)
• Implemented Blob.stream (r268228)
• Updated FileReader.result to return null if it isn’t done yet (r268232)
• Improved xhr.response conformance to the specification (r267959)

URL Parsing

• Aligned URL setters to reasonable behaviors of other browsers (r268050)
• Changed to parse “#” as a delimiter for fragment identifier in data URIs (r267995)
• Changed to fail parsing URLs with hosts containing invalid punycode encodings (r267965)
• Fixed UTF-8 encoding in URL parsing (r267963)

Storage Access API

• Enabled per-page storage access scope (r267973)

Accessibility

• Fixed accessibility on Presidential Executive Order pages (r268117, r268206)

WebDriver

• Fixed WebDriver Input clear/value commands when the target is inside a Shadow DOM (r267978)