Starting in version 90, Chrome’s address bar will use https:// by default, improving privacy and even loading speed for users visiting websites that support HTTPS. Chrome users who navigate to websites by manually typing a URL often don’t include “http://” or “https://”. For example, users often type “example.com” instead of “https://example.com” in the address bar. In this case, if it was a user’s first visit to a website, Chrome would previously choose http:// as the default protocol1. This was a practical default in the past, when much of the web did not support HTTPS.
Chrome will now default to HTTPS for most typed navigations that don’t specify a protocol2. HTTPS is the more secure and most widely used scheme in Chrome on all major platforms. In addition to being a clear security and privacy improvement, this change improves the initial loading speed of sites that support HTTPS, since Chrome will connect directly to the HTTPS endpoint without needing to be redirected from http:// to https://. For sites that don’t yet support HTTPS, Chrome will fall back to HTTP when the HTTPS attempt fails (including when there are certificate errors, such as name mismatch or untrusted self-signed certificate, or connection errors, such as DNS resolution failure). This change is rolling out initially on Chrome Desktop and Chrome for Android in version 90, with a release for Chrome on iOS following soon after.
HTTPS protects users by encrypting traffic sent over the network, so that sensitive information users enter on websites cannot be intercepted or modified by attackers or eavesdroppers. Chrome is invested in ensuring that HTTPS is the default protocol for the web, and this change is one more step towards ensuring Chrome always uses secure connections by default.
1 One notable exception to this is any site in the HSTS preload list, which Chrome will always default to HTTPS. 2 IP addresses, single label domains, and reserved hostnames such as test/ or localhost/ will continue defaulting to HTTP.
The web platform relies on the origin as a fundamental security boundary, and browsers do a pretty good job at preventing explicit leakage of data from one origin to another. Attacks like Spectre, however, show that we still have work to do to mitigate implicit data leakage. The side-channels exploited through these attacks prove that attackers can read any data which enters a process hosting that attackers' code. These attacks are quite practical today, and pose a real risk to users.
Our goal must be to ensure that sensitive data doesn't unexpectedly enter an attacker's process. Browsers shoulder a large chunk of this responsibility: Chromium's Site Isolation can separate the sites you visit into distinct OS-level processes, cross-origin read blocking prevents attackers from loading a subset of otherwise-vulnerable cross-origin resources, and APIs that substantially increase attackers' bandwidth (like SharedArrayBuffer) are being locked to cross-origin isolated contexts. This last mechanism, however, points in the direction of work that browsers can't do on their own.
Web developers know their applications intimately, and can make informed decisions about each page's and resource's risk of exposure. To defend users' data against exfiltration, web developers must step in, evaluate resources they host, and instruct browsers to isolate those resources accordingly. At a high-level, this defense consists of:
Together, these various defenses help all browsers offer some degree of process-level protection for users' data, whether or not Site Isolation is available.
To find out more about employing these defenses, check out Post-Spectre Web Development. It includes practical examples that explain in more detail how the security primitives discussed above apply to resources you might have on your sites.
These are useful steps you can take today to protect your origin against implicit data leaks. Looking forward, we hope to help the web shift to safer defaults which protect users against these attacks without requiring developer action.
Unless otherwise noted, changes described below apply to the newest Chrome beta channel release for Android, Chrome OS, Linux, macOS, and Windows. Learn more about the features listed here through the provided links or from the list on ChromeStatus.com. Chrome 90 is beta as of March 11, 2021.
An AV1 encoder is shipping in Chrome desktop that is specifically optimized for video conferencing with WebRTC integration. The benefits of AV1 include:
This is an important addition to WebRTC especially since it recently became an official W3C and IETF standard.
This version of Chrome introduces the origin trials described below. Origin trials allow you to try new features and give feedback on usability, practicality, and effectiveness to the web standards community. To register for any of the origin trials currently supported in Chrome, including the ones described below, visit the Chrome Origin Trials dashboard. To learn more about origin trials in Chrome, visit the Origin Trials Guide for Web Developers. Microsoft Edge runs its own origin trials separate from Chrome. To learn more, see the Microsoft Edge Origin Trials Developer Console.
The mediaDevices.getCurrentBrowsingContextMedia() method allows capturing a MediaStream with the current tab's video (and potentially audio), similar to getDisplayMedia(). Unlike getDisplayMedia(), calling this new method will eventually present the user with a simple accept/reject dialog box. If the user accepts, the current tab is captured. However, this will require some additional security measures which are still being finalized. Until then, or if the call is made with these measures absent, a dialog is displayed to the user that allows the selection of any source, but highlights the option of the current tab (whereas normally getDisplayMedia highlights the option of entire-screen).
An API for manipulating raw media carried by MediaStreamTracks such as the output of a camera, microphone, screen capture, or the decoder part of a codec and the input to the decoder part of a codec. It uses WebCodecs interfaces to represent raw media frames and exposes them using streams, similar to the way the WebRTC Insertable Streams API exposes encoded data from RTCPeerConnections. This is intended to support use cases such as:
This origin trial is expected to run through Chrome 92.
Subresource loading with Web Bundles provides a new approach to loading a large number of resources efficiently using a format that allows multiple resources to be bundled., e.g. Web Bundles.
The output of JavaScript bundlers (e.g. webpack) doesn't interact well with browsers. They are good tools but:
This origin trial also allows a bundle to include the source for an opaque-origin iframe as urn:uuid: resources. The scheme for these resources is expected to change in Chrome 91.
urn:uuid:
WebAssembly now provides exception handling support. Exception handling allows code to break control flow when an exception is thrown. The exception can be any that is known by the WebAssembly module, or it may be an unknown exception that was thrown by a called imported function. This origin trial is expected to run through Chrome 94.
The following features, previously in a Chrome origin trial, are now enabled by default.
Lighting estimation allows sites to query for estimates of the environmental lighting conditions within WebXR sessions. This exposes both spherical harmonics representing the ambient lighting, as well as a cubemap texture representing "reflections". Adding Lighting Estimation can make your models feel more natural and like they "fit" better with the user's environment.
The aspect-ratio property allows for automatically computing the other dimension if only one of width or height is specified on any element. This property was originally launched as non-interpolable (meaning that it would snap to the target value) when animated. This feature provides smooth interpolation from one aspect ratio to another.
aspect-ratio
Custom elements now expose their states via the state CSS pseudo class. Built-in elements have states that can change over time depending on user interaction and other factors, which are exposed to web authors through pseudo classes. For example, some form controls have the "invalid" state, which is exposed through the :invalid pseudo class. Since custom elements also have states it makes sense to expose their states in a manner similar to built-in elements.
The default values of CSS property appearance and -webkit-appearance for the following form controls are changed to 'auto'.
appearance
-webkit-appearance
'auto'
<input type=color>
<select>
<input type=date>
<input type=datetime-local>
<input type=month>
<input type=time>
<input type=week>
Note that the default rendering of these controls are not changed.
The clip value for overflow results in a box's content being clipped to the box's overflow clip edge. In addition, no scrolling interface is provided, and the content cannot be scrolled by the user or programmatically. Additionally the box is not considered a scroll container, and does not start a new formatting context. As a result, this value has better performance than overflow: hidden.
clip
overflow
overflow: hidden
The overflow-clip-margin property enables specifying how far outside the bounds an element is allowed to paint before being clipped. It also allows the developer to expand the clip border. This is particularly useful for cases where there is ink overflow that should be visible.
overflow-clip-margin
The Permissions-Policy HTTP header replaces the existing Feature-Policy header for controlling delegation of permissions and powerful features. The header allows sites to more tightly restrict which origins can be granted access to features.
Permissions-Policy
Feature-Policy
The Feature Policy API, introduced in Chrome 74, was recently renamed to "Permissions Policy", and the HTTP header has been renamed along with it. At the same time, the community has settled on a new syntax, based on structured field values for HTTP.
Protect application/x-protobuffer from speculative execution attacks by adding it to the list of never sniffed MIME types used by Cross-Origin-Read-Blocking. application/x-protobuf is already protected as a never sniffed mime type. application/x-protobuffer is another commonly used MIME type that is defined as an "ALT_CONTENT_TYPE" by the protobuf library.
application/x-protobuffer
Cross-Origin-Read-Blocking
application/x-protobuf
"ALT_CONTENT_TYPE"
When data is passed to FileSystemWritableFileStream.write() that would extend past the end of the file, the file is now extended by writing 0x00 (NUL). This enables creating sparse files and greatly simplifies saving content to a file when the data to be written is received out of order. Without this functionality, applications that receive file contents out of order (for example, BiTtorrent downloads) would have to manually resize the file either ahead of time or when needed during writing.
FileSystemWritableFileStream.write()
0x00
NUL
Currently, Range is the only constructible range type available to web authors. However, Range objects are "live" and maintaining them can be expensive. For every tree change, all affected Range objects need to be updated. The new StaticRange objects are not live and represent a lightweight range type that is not subject to the same maintenance cost as Range. Making StaticRange constructible allows web authors to use them for ranges that do not need to be updated on every DOM tree change.
Range
StaticRange
The <source> element now supports width and height properties when used inside a <picture> element. This allows Chrome to compute an aspect ratio for <picture> elements. This matches similar behavior for <img>, <canvas> and <video> elements.
<source>
width
height
<picture>
<img>
<canvas>
<video>
It is no longer possible to set periodicWave to null when creating a new OscillatorNode object. This value is set on the options object passed to the OscillatorNode() constructor. The WebAudio spec doesn't allow setting this value to null. Chrome now matches both the spec and Firefox.
OscillatorNode
OscillatorNode()
This version of Chrome incorporates version 9.0 of the V8 JavaScript engine. It specifically includes the changes listed below. You can find a complete list of recent features in the V8 release notes.
Array, String, and TypedArray now support the at() method, which supports relative indexing with negative numbers. For example, the code below returns the last item in the given array.
at()
let arr = [1,2,3,4]; arr.at(-1);
This version of Chrome introduces the deprecations and removals listed below. Visit ChromeStatus.com for lists of current deprecations and previous removals.
The 'plugin-types' directive allows developers to restrict which types of plugin can be loaded via <embed> or <object> html elements. This allowed developers to block Flash in their pages. Since Flash support has been discontinued, there is no longer any need for this policy directive.
<embed>
<object>
Chrome has removed support for the non-standard RTP data channels in WebRTC. Users should use the standard SCTP-based data channels instead.
Chrome now returns empty for navigator.plugins and navigator.mimeTypes. With the removal of Flash, there is no longer the need to return anything for these properties.
navigator.plugins
navigator.mimeTypes