Review of Igalia Multimedia activities (2020/H2)

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:


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 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
    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.


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.

Review of Igalia Multimedia activities (2020/H1)

This blog post is a review of the various activities the Igalia Multimedia team was involved in during the first half of 2020.

Our previous reports are:

Just before a new virus turned into pandemics we could enjoy our traditional FOSDEM. There, our colleague Phil gave a talk about many of the topics covered in this report.


GstWPE’s wpesrc element, produces a video texture representing a web page rendered off-screen by WPE.

We have worked on a new iteration of the GstWPE demo, focusing on one-to-many, web-augmented overlays, broadcasting with WebRTC and Janus.

Also, since the merge of gstwpe plugin in gst-plugins-bad (staging area for new elements) new users have come along spotting rough areas and improving the element along the way.

Video Editing

GStreamer Editing Services (GES) is a library that simplifies the creation of multimedia editing applications. It is based on the GStreamer multimedia framework and is heavily used by Pitivi video editor.

Implemented frame accuracy in the GStreamer Editing Services (GES)

As required by the industry, it is now possible to reference all time in frame number, providing a precise mapping between frame number and play time. Many issues were fixed in GStreamer to reach the precision enough for make this work. Also intensive regression tests were added.

Implemented time effects support in GES

Important refactoring inside GStreamer Editing Services have happened to allow cleanly and safely change playback speed of individual clips.

Implemented reverse playback in GES

Several issues have been fixed inside GStreamer core elements and base classes in order to support reverse playback. This allows us to implement reliable and frame accurate reverse playback for individual clips.

Implemented ImageSequence support in GStreamer and GES

Since OpenTimelineIO implemented ImageSequence support, many users in the community had said it was really required. We reviewed and finished up imagesequencesrc element, which had been awaiting review for years.

This feature is now also supported in the OpentimelineIO GES adapater.

Optimized nested timelines preroll time by an order of magnitude

Caps negotiation, done while the pipeline transitions from pause state to playing state, testing the whole pipeline functionality, was the bottleneck for nested timelines, so pipelines were reworked to avoid useless negotiations. At the same time, other members of GStreamer community have improved caps negotiation performance in general.

Last but not least, our colleague Thibault gave a talk in The Pipeline Conference about The Motion Picture Industry and Open Source Software: GStreamer as an Alternative, explaining how and why GStreamer could be leveraged in the motion picture industry to allow faster innovation, and solve issues by reusing all the multi-platform infrastructure the community has to offer.

WebKit multimedia

There has been a lot of work on WebKit multimedia, particularly for WebKitGTK and WPE ports which use GStreamer framework as backend.

WebKit Flatpak SDK

But first of all we would like to draw readers attention to the new WebKit Flatpak SDK. It was not a contribution only from the multimedia team, but rather a joint effort among different teams in Igalia.

Before WebKit Flatpak SDK, JHBuild was used for setting up a WebKitGTK/WPE environment for testing and development. Its purpose to is to provide a common set of well defined dependencies instead of relying on the ones available in the different Linux distributions, which might bring different outputs. Nonetheless, Flatpak offers a much more coherent environment for testing and develop, isolated from the rest of the building host, approaching to reproducible outputs.

Another great advantage of WebKit Flatpak SDK, at least for the multimedia team, is the possibility of use gst-build to setup a custom GStreamer environment, with latest master, for example.

Now, for sake of brevity, let us sketch an non-complete list of activities and achievements related with WebKit multimedia.

General multimedia

Media Source Extensions (MSE)

Encrypted Media Extension (EME)

One of the major results of this first half, is the upstream of ThunderCDM, which is an implementation of a Content Decryption Module, providing Widevine decryption support. Recently, our colleague Xabier, published a blog post on this regard.

And it has enabled client-side video rendering support, which ensures video frames remain protected in GPU memory so they can’t be reached by third-party. This is a requirement for DRM/EME.



Though we normally contribute in GStreamer with the activities listed above, there are other tasks not related with WebKit. Among these we can enumerate the following:

GStreamer VAAPI

  • Reviewed a lot of patches.
  • Support for media-driver (iHD), the new VAAPI driver for Intel, mostly for Gen9 onwards. There are a lot of features with this driver.
  • A new vaapioverlay element.
  • Deep code cleanups. Among these we would like to mention:
    • Added quirk mechanism for different backends.
    • Change base classes to GstObject and GstMiniObject of most of classes and buffers types.
  • Enhanced caps negotiation given current driver’s constraints


The multimedia team in Igalia has keep working, along the first half of this strange year, in our three main areas: browsers (mainly on WebKitGTK and WPE), video editing and GStreamer framework.

We worked adding and enhancing WebKitGTK and WPE multimedia features in order to offer a solid platform for media providers.

We have enhanced the Video Editing support in GStreamer.

And, along these tasks, we have contribuited as much in GStreamer framework, particulary in hardware accelerated decoding and encoding and VA-API.