Update on what happened in WebKit in the week from May 4 to May 11.

This week we have a bag of exciting updates, such as fixes to crashes, better YouTube playback, a handful of advancements to WebXR, and the development releases of WebKitGTK and WPE WebKit 2.53.2.

Cross-Port 🐱

Networking 📶

Multimedia 🎥

Graphics 🖼️

Releases 📦️

Update on what happened in WebKit in the week from April 8 to April 28.

After a short hiatus, we return with a galore of releases, more Web Platform improvements, tricky tweaks to thread scheduling, new niceties in the Web Inspector, and new build options to take advantage of compiler optimizations.

Cross-Port 🐱

Releases 📦️

Infrastructure 🏗️

Update on what happened in WebKit in the week from March 31 to April 7.

Support for iOS dialog light dismiss, a new API to obtain page icons, WebKit nightly builds for Epiphany Canary produced by GNOME GitLab, and more conservative checks for MPEG-4 Audio object types are all part of this week's edition of the WebKit periodical.

Cross-Port 🐱

Multimedia 🎥

Infrastructure 🏗️

Update on what happened in WebKit in the week from March 23 to March 30.

This week comes with a mixed bag of new features, incremental improvements, and a new release with the ever important security issue fixes. Also: more blog posts!

Cross-Port 🐱

Multimedia 🎥

Graphics 🖼️

WPE WebKit 📟

WPE Platform API 🧩

Releases 📦️

Community & Events 🤝

My colleague Kate recently demonstrated on her blog how simple it is to write a WPE Platform-based launcher, and did so by building it side-by-side with MiniBrowser, inside the WebKit tree.

This entry takes one step back, and demonstrates the same concepts assuming you are not building WPE WebKit yourself, but rather getting it from your distribution. Many of the steps below would apply if you were using a Yocto/OpenEmbedded-based image, but that can be the focus of another post.

Getting WPE WebKit

Get WPE lists a number of options to get WPE from your preferred distribution. At the moment of writing, Fedora, Debian and ArchLinux are your best choices to get a recent version of WPE:

• 2.52 on Fedora
• 2.50 on Debian Forky, 2.52 on Debian Sid
• 2.50 on ArchLinux

However, since WPE Platform hasn’t officially been released, we need to use Fedora, where my colleague Philippe maintains a Copr repository with it enabled.

sudo dnf copr enable -y philn/wpewebkit
sudo dnf install wpewebkit-devel

Alternatively, you can use a container. Here is a Containerfile based on Fedora 42:

FROM fedora:42

RUN dnf install -y \
    dnf-plugins-core \
    && dnf copr enable -y philn/wpewebkit \
    && dnf install -y \
    gcc-c++ \
    cmake \
    pkg-config \
    wpewebkit-devel

WORKDIR /src

Build and run it with:

podman build -t wpe-dev .
podman run -it -e WAYLAND_DISPLAY=$WAYLAND_DISPLAY \
-e XDG_RUNTIME_DIR=/run/user/$(id -u) \
-v $XDG_RUNTIME_DIR/$WAYLAND_DISPLAY:/run/user/$(id -u)/$WAYLAND_DISPLAY \
-v /dev/dri:/dev/dri \
wpe-dev bash

The build system

Kate’s post builds the launcher as part of the WebKit tree using WebKit’s own CMake infrastructure. For a standalone project, we need a self-contained CMakeLists.txt that finds WPE WebKit through pkg-config:

cmake_minimum_required(VERSION 3.16)
project(wpe_sample CXX)

set(CMAKE_CXX_STANDARD 17)

find_package(PkgConfig REQUIRED)

# The Wayland WPE Platform already depends on wpe-platform-2.0
pkg_check_modules(WebKitDeps REQUIRED
    IMPORTED_TARGET
    wpe-webkit-2.0
    wpe-platform-wayland-2.0
)

add_executable(wpe_sample main.cpp)

target_link_libraries(wpe_sample
    PRIVATE
        PkgConfig::WebKitDeps
)

The launcher

Here is a minimal launcher — the smallest amount of code needed to display a web page with WPE WebKit:

#include <wpe/webkit.h>

int main(int argc, const char *argv[]) {
    g_autoptr(GMainLoop) loop = g_main_loop_new(nullptr, false);
    g_autoptr(WebKitWebView) view = WEBKIT_WEB_VIEW(g_object_new(WEBKIT_TYPE_WEB_VIEW,
        nullptr));
    webkit_web_view_load_uri(view,
        (argc > 1) ? argv[1] : "https://wpewebkit.org");
    g_main_loop_run(loop);
    return EXIT_SUCCESS;
}

This snippet relies heavily on default behaviours: it will create a default WPE view, with default top levels, with the default display selection behaviour (Wayland), default context, settings…

Again, Kate’s post does a more realistic job at showing how the various pieces are created and connected together.

Building and running

cmake -B build
cmake --build build
./build/wpe_sample https://wpewebkit.org/

Display backends

WPE WebKit can render to different display backends depending on your environment, which you can select through environment variables:

# Wayland (e.g. desktop, Weston).
WPE_DISPLAY=wpe-display-wayland WAYLAND_DISPLAY=wayland-1 ./build/wpe_sample https://wpewebkit.org/

# DRM/KMS (e.g. embedded, no compositor)
WPE_DISPLAY=wpe-display-drm ./build/wpe_sample https://wpewebkit.org/

# Headless (e.g. testing, CI)
WPE_DISPLAY=wpe-display-headless ./build/wpe_sample https://wpewebkit.org/

You can take a look at wpe_display_get_default() in WPEPlatform/wpe/WPEDisplay.cpp to understand how the automatic selection takes place in the absence of an explicit WPE_DISPLAY request.

(In our example, we are only listing Wayland as a CMake dependency. If libwpewebkit was compiled without DRM or headless support, the environment variable approach would not work.)

Next steps

This is all for now. The next entry in the series will cover classic kiosk features: preventing navigation to unwanted sites, controlling whether new windows can be opened, and intercepting requests through policy decisions.

For a more complete example that includes a custom HTML context menu and JavaScript injection, see Kate’s post.

Update on what happened in WebKit in the week from March 10 to March 18.

The big ticket item in this week's update are the 2.52.0 releases, which include the work from the last six-month development period, and come with a security advisory. Meanwhile, WPE-Android also gets a release, and a number of featured blog posts.

WPE WebKit 📟

Releases 📦️

Community & Events 🤝

The WebKit team at Igalia is happy to announce a new release series of WPE WebKit. This is a summary of the most noteworthy changes from the latest release cycle.

Graphics improvements

WPE’s graphics support has seen numerous improvements with a positive impact in rendering performance, resource usage, and better rendering. Let’s have a look at some of the most significant changes:

• Compute the layers tile size, using a different strategy depending on whether GPU rendering is enabled. This optimizes resource usage depending on both hardware and software rendering mode.
• WPE now uses run-loop observers to properly schedule layer flushing and composition, which results in snappier and better performing rendering and animation.
• 2D-canvas acceleration has now improved performance, as operations are recorded for batched replay.
• Text rendering has better performance too.
• In non-composite mode, it’s now also possible to use damage propagation.
• Asynchronous scrolling has also seen performance improvements.

On top of this, as usual, many rendering issues have been fixed, making this release of WPE one of the best in terms of graphics support.

Multimedia improvements

WebRTC

When using GstWebRTC, WebRTC network access has been moved to the network process. This also requires librice, and building with the CMake USE_LIBRICE option. When this is enabled, it is still possible to choose the older libnice-based implementation at runtime by setting WEBKIT_GST_DISABLE_WEBRTC_NETWORK_SANDBOX=1 in the environment.

Having WebRTC network access in the network process is a security improvement, as it reduces the surface of attack in other more sensitive processes.

Other multimedia improvements

• Videos with BT2100-PQ colorspace are now tone-mapped to SDR, ensuring colours do not appear washed out.
• Support for the Audio Output Devices API, which allows Web content to enumerate audio devices and decide which one to use for output. This feature is disabled by default, and may be previewed using the ExposeSpeakers, ExposeSpeakersWithoutMicrophone, and PerElementSpeakerSelection feature flags.
• Many code improvements to the GStreamer backend that will result in a more stable multimedia experience.

WebXR

WebXR support through OpenXR has seen substantial development this cycle:

• New API has been added in order to support WebXR session permissions, querying whether a session is active and requesting to leave a session.
• Support for WebXR Hand Input module has been added for ports using OpenXR.
• Support for WebXR Hit Test Module is added with testable status, so it can be enabled at runtime (--features=+WebXRHitTestModule) or at build time passing -DENABLE_WEBXR_HIT_TEST=ON.

API Changes

The future of the WPE API

The traditional libwpe-based API remains in WPE for this release cycle, but we are planning to sunset it starting with the following one (2.54). This applies to Cog, which is no longer in active development and won’t have any more stable releases beyond the 0.18.x series. While both libwpe and Cog will remain available, we encourage developers to transition to the new WPEPlatform API, which will be considered stable by then.

This means that it is the perfect time to test the WPEPlatform API and provide feedback, as it’s still possible to make changes to it to better suit users’ needs.

WPEPlatform API changes

New platform APIs include:

• wpe_display_create_toplevel(). This way it’s possible to create a toplevel using the common API which allows the inspector to work when the application is handling toplevels.
• A new WPEDisplay::disconnected signal has been added, which allows platform implementations to notify when the native display gets “disconnected” and thus no longer usable. Applications can handle it to attempt recovery, or to know when they may free resources.
• A new WPEView::buffers-changed signal, alongside the associated WPEViewClass.buffers_changed virtual function, have been added. These may be used to know in advance which graphics buffers will be used for rendering the content for a given web view. This feature is mainly useful for platform implementations which may need to perform additional setup in advance, before updated web view contents are provided in the buffers configured by WebKit.
• Two new functions, wpe_clipboard_content_get_text() and wpe_clipboard_content_get_bytes(), allow applications to obtain the contents held in the clipboard.

The public API has received the following changes, which might require changes to existing platform implementations:

• Multiple callbacks are now supported for WPEScreenSyncObserver, the API has changed from wpe_screen_sync_observer_set_callback() to a pair of wpe_screen_sync_observer_add_callback()/_remove_callback() functions. The functions to start/stop the observer are no longer available, and instead the observer will be activated automatically when there are one or more callbacks attached to it.

The WPEPlatform API can now be used on Android.

Legacy API

The legacy libwpe-based API can be disabled at build time, by toggling the ENABLE_WPE_LEGACY_API CMake option. This allows removal of uneeded code when an application is exclusively using the new WPEPlatform API.

New WebKit API

• WebKitImage, an image abstraction that is used when taking snapshots of webviews.
• webkit_webview_get_snapshot() and webkit_webview_get_snapshot_finish() can be used to fetch a snapshot of a webview contents.

Web Standards support

As usual, this list is not exhaustive as WebKit continuously progresses in its support for new standards. Some of the highlights for this release are:

• Largest Contentful Paint is now enabled.
• Pointer and Touch Events now use more precise fractional coordinates.
• The Fetch API now accepts local connections.
• The Navigation API is now enabled.
• The Event Timing API is now enabled.
• The CSS random() function (in draft status) is now available.
• CSS field-sizing is now available.
• The Keyboard lock API is now available.
• The Origin API is now available.
• The Readable Byte Streams API is now available.
• Enabled CSS grid-lanes (a.k.a. Masonry layout), part of CSS Grid Layout Module Level 3.

Other notes

The Flatpak-based development SDK has been removed. Developers are encouraged to use the WebKit Container SDK instead.

Since 2022, my main focus has been working on the Wolvic browser, still the only open source WebXR-capable browser for Android/AOSP devices (Meta, Pico, Huawei, Lenovo, Lynx, HTC…) out there. That’s an effort that continues to this day (although to a much lesser extent nowadays). In early 2025, as a consequence of all that work in XR on the web, an opportunity emerged to implement WebXR support in WebKit for the WPE port, and we decided to take it.

WPE WebKit and WebKitGTK support async scrolling for wheel events. I landed several improvements for the upcoming 2.52 release.

• Bug 305451 – wheel event async scrolling doesn’t start while the main thread is blocked
• Bug 305560 – rendering glitches for unpainted tiles
• Bug 305561 – Paint scrollbars in the scrolling thread for async scrolling

Here are videos of before and after the changes. This is the test content.

There is still room for further improvement.

• The scrollbar hiding animation timer is still running in the main thread.
  • It can use CoordinatedPlatformLayer::setAnimations.
  • Or CoordinatedPlatformLayer::setOpacity.
• Add the showing animation and transition animations of mouse hover states like GTK Adwaita theme
• Support touch and gesture events async scrolling

WPE WebKit is a WebKit port optimized for embedded devices — think set-top boxes, digital signage, kiosk displays, and in-vehicle infotainment systems. It is developed by Igalia and powers web experiences on millions of devices worldwide, from set-top boxes to smart TVs and beyond.

WPE WebKit has recently introduced a brand-new platform API called WPEPlatform, which replaces the legacy libwpe + wpebackend-fdo stack. In this post, I will walk you through building a minimal WPE browser launcher using only the new WPEPlatform API, and demonstrate one of its newly available features: the Context Menu API — rendered entirely as an HTML overlay.

Why a New API? #

The legacy stack (libwpe + wpebackend-fdo + Cog platform plugins) had several pain points: nested Wayland compositor complexity, dependency on Mesa’s now-deprecated EGL_WL_bind_wayland_display extension, rigid C function-pointer tables, and platform code scattered across three libraries.

The new WPEPlatform API replaces all of this with a single, clean GObject-based layer — providing automatic backend creation, DMA-BUF direct buffer sharing, unified window management (fullscreen, maximize, resize, title), and easy language bindings via GObject Introspection.

Timeline: The stable release of WPEPlatform is planned for September 2026. At that point, the legacy API will be officially deprecated. We strongly recommend new projects to adopt the WPEPlatform API from the start.

WPEPlatform Launcher: A Minimal Browser in ~250 Lines #

To demonstrate the new API, I built WPEPlatformLauncher — a minimal but functional WPE WebKit browser that uses only the WPEPlatform API. No legacy libwpe, no wpebackend-fdo, no Cog — just the new API.

The full source code is available at: kate-k-lee/WebKit@aed6402

How Simple Is It? #

Here is the core of the launcher — creating a WebView with the new API:

/* WPEPlatform backend is created automatically — no manual setup needed */
auto* webView = WEBKIT_WEB_VIEW(g_object_new(WEBKIT_TYPE_WEB_VIEW,
    "web-context", webContext,
    "network-session", networkSession,
    "settings", settings,
    "user-content-manager", userContentManager,
    nullptr));

/* Get the WPEPlatform view — this is where the new API shines */
auto* wpeView = webkit_web_view_get_wpe_view(webView);
auto* toplevel = wpe_view_get_toplevel(wpeView);

/* Window management: fullscreen, resize, title — all built-in */
wpe_toplevel_fullscreen(toplevel);
wpe_toplevel_resize(toplevel, 1920, 1080);
wpe_toplevel_set_title(toplevel, "WPEPlatform Launcher");

/* Input events: just connect a GObject signal */
g_signal_connect(wpeView, "event", G_CALLBACK(onViewEvent), webView);

Compare this with the legacy API, which required:

1. Manually creating a WPEToolingBackends::ViewBackend
2. Wrapping it in a WebKitWebViewBackend with a destroy callback
3. Creating a C++ InputClient class and registering it
4. Having no window management (no maximize, minimize, title, etc.)

The new API handles backend creation, display detection, and input forwarding automatically.

Keyboard Shortcuts #

Handling keyboard events is straightforward with the WPEPlatform event system:

static gboolean onViewEvent(WPEView* view, WPEEvent* event, WebKitWebView* webView)
{
    if (wpe_event_get_event_type(event) != WPE_EVENT_KEYBOARD_KEY_DOWN)
        return FALSE;

    auto modifiers = wpe_event_get_modifiers(event);
    auto keyval = wpe_event_keyboard_get_keyval(event);

    /* Ctrl+Q: Quit */
    if ((modifiers & WPE_MODIFIER_KEYBOARD_CONTROL) && keyval == WPE_KEY_q) {
        g_application_quit(g_application_get_default());
        return TRUE;
    }

    /* F11: Toggle fullscreen via WPEToplevel */
    if (keyval == WPE_KEY_F11) {
        auto* toplevel = wpe_view_get_toplevel(view);
        if (wpe_toplevel_get_state(toplevel) & WPE_TOPLEVEL_STATE_FULLSCREEN)
            wpe_toplevel_unfullscreen(toplevel);
        else
            wpe_toplevel_fullscreen(toplevel);
        return TRUE;
    }

    return FALSE;
}

HTML-Based Context Menu: Solving the “No Native UI” Challenge #

WPE WebKit is designed for embedded environments where there is no native UI toolkit — no GTK, no Qt. This means features like context menus (right-click menus) that desktop browsers take for granted need to be implemented by the application.

The approach: intercept WebKit’s context-menu signal, read the menu items, and render them as an HTML/CSS overlay injected into the page DOM.

The Architecture #

User right-clicks
  → WebKit emits "context-menu" signal
  → onContextMenu() handler:
      1. Reads menu items via webkit_context_menu_get_items()
      2. Gets position via webkit_context_menu_get_position()
      3. Builds JavaScript that creates DOM elements
      4. Injects via webkit_web_view_evaluate_javascript()
      5. Returns TRUE (suppresses default menu)

User clicks a menu item
  → JS: window.webkit.messageHandlers.contextMenuAction.postMessage(actionId)
  → C: onContextMenuAction() receives the action ID
      → Executes: webkit_web_view_go_back(), execute_editing_command("Copy"), etc.

User clicks outside the menu
  → JS: overlay click handler removes the DOM elements

Reading Context Menu Items #

The Context Menu API provides everything we need:

static gboolean onContextMenu(WebKitWebView* webView,
    WebKitContextMenu* contextMenu, gpointer /* event */,
    WebKitHitTestResult* hitTestResult, gpointer)
{
    /* Save hit test result for link-related actions */
    savedHitTestResult = WEBKIT_HIT_TEST_RESULT(g_object_ref(hitTestResult));

    /* Iterate through menu items */
    GList* items = webkit_context_menu_get_items(contextMenu);
    for (GList* l = items; l; l = l->next) {
        auto* item = WEBKIT_CONTEXT_MENU_ITEM(l->data);

        if (webkit_context_menu_item_is_separator(item)) {
            /* Render as a horizontal line */
            continue;
        }

        const char* title = webkit_context_menu_item_get_title(item);
        auto action = webkit_context_menu_item_get_stock_action(item);
        /* Build HTML element with title and action ID */
    }

    /* Get position for menu placement */
    gint posX = 0, posY = 0;
    webkit_context_menu_get_position(contextMenu, &posX, &posY);

    return TRUE; /* Suppress default menu */
}

The HTML Menu: Dark Theme for Embedded #

The context menu is rendered with a dark theme CSS, designed for embedded/kiosk displays:

#__wpe_ctx_menu {
    position: fixed;
    min-width: 180px;
    background: #2b2b2b;
    border: 1px solid #505050;
    border-radius: 6px;
    padding: 4px 0;
    box-shadow: 0 8px 24px rgba(0,0,0,0.4);
    font-family: system-ui, sans-serif;
    font-size: 13px;
    color: #e0e0e0;
}

.__wpe_ctx_item:hover {
    background: #0060df;
    color: #ffffff;
}

Handling Actions via Script Message Handler #

Communication between the HTML menu and the C application uses WebKit’s script message handler mechanism:

/* Register message handler */
auto* ucm = webkit_user_content_manager_new();
webkit_user_content_manager_register_script_message_handler(
    ucm, "contextMenuAction", nullptr);
g_signal_connect(ucm, "script-message-received::contextMenuAction",
    G_CALLBACK(onContextMenuAction), nullptr);

// In the generated HTML menu item:
item.addEventListener('click', function() {
    window.webkit.messageHandlers.contextMenuAction.postMessage(actionId);
});

/* Handle the action in C */
static void onContextMenuAction(WebKitUserContentManager*, JSCValue* value, gpointer)
{
    int actionId = jsc_value_to_int32(value);

    switch (actionId) {
    case WEBKIT_CONTEXT_MENU_ACTION_RELOAD:
        webkit_web_view_reload(webView);
        break;
    case WEBKIT_CONTEXT_MENU_ACTION_COPY:
        webkit_web_view_execute_editing_command(webView, "Copy");
        break;
    case WEBKIT_CONTEXT_MENU_ACTION_OPEN_LINK:
        webkit_web_view_load_uri(webView,
            webkit_hit_test_result_get_link_uri(savedHitTestResult));
        break;
    /* ... more actions ... */
    }
}

Demo #

Here is the WPEPlatformLauncher in action, showing the HTML context menu with various actions:

Right-clicking shows the HTML context menu. Clicking “Reload” triggers an actual page reload.

Right-clicking a link shows link-specific actions like “Open Link” and “Copy Link Address”.

Building and Running #

I built and ran the WPEPlatformLauncher inside a container using the WebKit Container SDK, which provides a pre-configured development environment with all the dependencies needed to build WPE WebKit.

The WPEPlatformLauncher integrates into the WebKit build system:

# Build WPE WebKit with the launcher
Tools/Scripts/build-webkit --wpe --release

# Run
./WebKitBuild/WPE/Release/bin/WPEPlatformLauncher https://wpewebkit.org

# Run in fullscreen (kiosk mode)
./WebKitBuild/WPE/Release/bin/WPEPlatformLauncher --fullscreen https://your-app.com

The full source is a single main.cpp file (~600 lines including the context menu), integrated into the WebKit tree alongside MiniBrowser:

WebKit/Tools/
├── MiniBrowser/wpe/          ← Existing (supports both old + new API)
├── WPEPlatformLauncher/      ← New (WPEPlatform API only)
│   ├── main.cpp
│   └── CMakeLists.txt
└── PlatformWPE.cmake         ← Modified to add WPEPlatformLauncher

Summary #

The new WPEPlatform API makes building WPE WebKit applications significantly simpler:

• No manual backend setup — the platform is detected and configured automatically
• GObject-based — signals, properties, and ref counting instead of C function pointers
• DMA-BUF direct sharing — no dependency on Mesa’s deprecated EGL extensions
• Unified window management — fullscreen, maximize, minimize, resize, and title
• Language binding friendly — works with Python, JavaScript, and more via GObject Introspection

For embedded browser developers building kiosk UIs, set-top box interfaces, or digital signage with WPE WebKit — now is the time to adopt the new API. The stable release is coming in September 2026, and the legacy stack (libwpe, wpebackend-fdo, Cog) will be deprecated at that point.

Resources #

• WPE WebKit official site
• WPE WebKit API Reference (2.51.92)
• WebKitContextMenu API Reference
• WPEPlatformLauncher source code
• Igalia — WPE WebKit
• Cog — WPE launcher (legacy)

I built libsoup and WebKit with ASan today. It works almost out of the box. I used Clang. GCC also supports ASan, but WebKit has a problem with it. WebKit Container SDK is based on Ubuntu 20.04 LTS at the moment. It contains clang 18 by default.

Installed required packages.

sudo apt install libclang-rt-18-dev llvm-18-dev

Set env vars.

export CC=clang CXX=clang++

Passed some flags to libsoup.

--- /jhbuild/webkit-sdk-deps.modules.orig
+++ /jhbuild/webkit-sdk-deps.modules
@@ -149,7 +149,7 @@
     </dependencies>
   </meson>

-  <meson id="libsoup" mesonargs="-Dtests=false">
+  <meson id="libsoup" mesonargs="-Dtests=false -Db_sanitize=address -Db_lundef=false">
     <branch repo="github.com"
             checkoutdir="libsoup"
             module="GNOME/libsoup.git" tag="3.6.6"/>

Then, build and install libsoup.

jhbuild buildone -f libsoup

Then, build WebKit with ASan.

./Tools/Scripts/build-webkit --gtk --release --cmakeargs=-DENABLE_SANITIZERS=address

WebKit has a lot of memory leaks by design. Don’t detect leaks.

export ASAN_OPTIONS=detect_leaks=0

For run-webkit-tests, I had to modify a script a bit.

diff --git a/Tools/Scripts/webkitpy/port/driver.py b/Tools/Scripts/webkitpy/port/driver.py
index eb12801a455b..c9f74eeab4e2 100644
--- a/Tools/Scripts/webkitpy/port/driver.py
+++ b/Tools/Scripts/webkitpy/port/driver.py
@@ -482,7 +482,7 @@ class Driver(object):
         else:
             environment['DUMPRENDERTREE_TEMP'] = str(self._driver_tempdir)
         environment['LOCAL_RESOURCE_ROOT'] = str(self._port.layout_tests_dir())
-        environment['ASAN_OPTIONS'] = "allocator_may_return_null=1"
+        environment['ASAN_OPTIONS'] = "allocator_may_return_null=1:detect_leaks=0"
         environment['__XPC_ASAN_OPTIONS'] = environment['ASAN_OPTIONS']

         # Disable vnode-guard related simulated crashes for WKTR / DRT (rdar://problem/40674034).

That’s it. Enjoy.

Update on what happened in WebKit in the week from March 2 to March 9.

As part of this week's handful of news, WebKitGTK and WPE WebKit now have support for Gamepad's "VibationActuator" property, the video decoding limit is now configurable at runtime in addition to build time, and an interesting fix that makes WebKit render fonts like other browsers by making it blend text incorrectly (!).

Cross-Port 🐱

Multimedia 🎥

Graphics 🖼️

Releases 📦️

Update on what happened in WebKit in the week from February 23 to March 2.

This installment of the periodical brings news about support for Qualcomm qtivdec2 and qtivenc2 on GStreamer, GPU texture atlas creation and replay substitution, enhancement of the scroll gesture in WPE, and two new releases: WebKitGTK 2.51.92 and WPE WebKit 2.51.92.

Cross-Port 🐱

Multimedia 🎥

Graphics 🖼️

WPE WebKit 📟

WPE Platform API 🧩

Releases 📦️

Update on what happened in WebKit in the week from February 9 to February 23.

In this week we have a nice fix for video streams timestamps, a fix for a PDF rendering regression, support for rendering video buffers provided by Qualcomm video decoders, and a fix for a font selection issue. Also notable we had a new WPE Android release, and the libsoup 3.6.6 release.

Cross-Port 🐱

Multimedia 🎥

Graphics 🖼️

Releases 📦️

Update on what happened in WebKit in the week from February 2 to February 9.

The main event this week was FOSDEM (pun intended), which included presentations related to WebKit; but also we got a batch of stable and development releases, asynchronous scrolling work, OpenGL logging, cleanups, and improving the inspector for the WPE work.

Cross-Port 🐱

Graphics 🖼️

WebKitGTK 🖥️

WPE WebKit 📟

Releases 📦️

Community & Events 🤝

Update on what happened in WebKit in the week from January 26 to February 2.

A calm week for sure! The highlight this week is the fix for scrolling not starting when the main thread is blocked.

Cross-Port 🐱

Graphics 🖼️

Update on what happened in WebKit in the week from January 19 to January 26.

The main event this week has been the creation of the branch for the upcoming stable series, accompanied by the first release candidate before 2.52.0. But there's more: the WPE port gains hyphenation support and the ability to notify of graphics buffer changes; both ports get graphics fixes and a couple of new Web features, and WPE-Android also gets a new stable release.

Cross-Port 🐱

Graphics 🖼️

WPE WebKit 📟

WPE Platform API 🧩

Releases 📦️

Now that 2025 is over, it’s time to look back and feel proud of the path we’ve walked. Last year has been really exciting in terms of contributions to GStreamer and WebKit for the Igalia Multimedia team.

With more than 459 contributions along the year, we’ve been one of the top contributors to the GStreamer project, in areas like Vulkan Video, GstValidate, VA, GStreamer Editing Services, WebRTC or H.266 support.

In Vulkan Video we’ve worked on the VP9 video decoder, and cooperated with other contributors to push the AV1 decoder as well. There’s now an H.264 base class for video encoding that is designed to support general hardware-accelerated processing.

GStreaming Editing Services, the framework to build video editing applications, has gained time remapping support, which now allows to include fast/slow motion effects in the videos. Video transformations (scaling, cropping, rounded corners, etc) are now hardware-accelerated thanks to the addition of new Skia-based GStreamer elements and integration with OpenGL. Buffer pool tuning and pipeline improvements have helped to optimize memory usage and performance, enabling the edition of 4K video at 60 frames per second. Much of this work to improve and ensure quality in GStreamer Editing Services has also brought improvements in the GstValidate testing framework, which will be useful for other parts of GStreamer.

Regarding H.266 (VVC), full playback support (with decoders such as vvdec and avdec_h266, demuxers and muxers for Matroska, MP4 and TS, and parsers for the vvc1 and vvi1 formats) is now available in GStreamer 1.26 thanks to Igalia’s work. This allows user applications such as the WebKitGTK web browser to leverage the hardware accelerated decoding provided by VAAPI to play H.266 video using GStreamer.

Igalia has also been one of the top contributors to GStreamer Rust, with 43 contributions. Most of the commits there have been related to Vulkan Video.

In addition to GStreamer, the team also has a strong presence in WebKit, where we leverage our GStreamer knowledge to implement many features of the web engine related to multimedia. From the 1739 contributions to the WebKit project done last year by Igalia, the Multimedia team has made 323 of them. Nearly one third of those have been related to generic multimedia playback, and the rest have been on areas such as WebRTC, MediaStream, MSE, WebAudio, a new Quirks system to provide adaptations for specific hardware multimedia platforms at runtime, WebCodecs or MediaRecorder.

We’re happy about what we’ve achieved along the year and look forward to maintaining this success and bringing even more exciting features and contributions in 2026.

Update on what happened in WebKit in the week from December 26 to January 19.

We're back! The first periodical of 2026 brings you performance optimizations, improvements to the memory footprint calculation, new APIs, the removal of the legacy Qt5 WPE backend, and as always, progress on JSC's Temporal implementation.

Cross-Port 🐱

JavaScriptCore 🐟

Graphics 🖼️

WPE WebKit 📟

WPE Platform API 🧩