Web Share API

W3C Working Draft

This version:
https://www.w3.org/TR/2021/WD-web-share-20210820/
Latest published version:
https://www.w3.org/TR/web-share/
Latest editor's draft:
https://w3c.github.io/web-share/
Test suite:
https://wpt.live/web-share/
Previous version:
https://www.w3.org/TR/2021/WD-web-share-20210817/
Editors:
Matt Giuca (Google Inc.)
Eric Willigers (Google Inc.)
Participate:
GitHub w3c/web-share
File an issue
Commit history
Pull requests
Browser support:
caniuse.com

Abstract

This specification defines an API for sharing text, links and other content to an arbitrary destination of the user's choice.

The available share targets are not specified here; they are provided by the user agent. They could, for example, be apps, websites or contacts.

Status of This Document

This section describes the status of this document at the time of its publication. Other documents may supersede this document. A list of current W3C publications and the latest revision of this technical report can be found in the W3C technical reports index at https://www.w3.org/TR/.

This is a work in progress. Wide review and feedback welcome.

This document was published by the Web Applications Working Group as a Working Draft. This document is intended to become a W3C Recommendation.

GitHub Issues are preferred for discussion of this specification.

Publication as a Working Draft does not imply endorsement by the W3C Membership.

This is a draft document and may be updated, replaced or obsoleted by other documents at any time. It is inappropriate to cite this document as other than work in progress.

This document was produced by a group operating under the W3C Patent Policy. W3C maintains a public list of any patent disclosures made in connection with the deliverables of the group; that page also includes instructions for disclosing a patent. An individual who has actual knowledge of a patent which the individual believes contains Essential Claim(s) must disclose the information in accordance with section 6 of the W3C Patent Policy.

This document is governed by the 15 September 2020 W3C Process Document.

1. Usage Examples

This section is non-normative.

This example shows a basic share operation. In response to a button click, this JavaScript code shares the current page's URL.

Example 1: Basic usage
shareButton.addEventListener("click", async () => {
  try {
    await navigator.share({ title: "Example Page", url: "" });
    console.log("Data was shared successfully");
  } catch (err) {
    console.error("Share failed:", err.message);
  }
});

Note that a url of '' refers to the current page URL, just as it would in a link. Any other absolute or relative URL can also be used.

In response to this call to share(), the user agent would display a picker or chooser dialog, allowing the user to select a target to share this title and the page URL to.

Calling canShare() method with a ShareData dictionary validates the shared data. unlike share(), it can be called without transient activation.

const file = new File([], "some.png", { type: "image/png" });

// Check if files are supported
if (navigates.canShare({files: [file]})) {
  // Sharing a png file would probably be ok...
}

// Check if a URL is ok to share...
if (navigates.canShare({ url: someURL })) {
  // The URL is valid and can probably be shared...
}

2. API definition

2.1 Extensions to the Navigator interface

WebIDLpartial interface Navigator {
  [SecureContext] Promise<undefined> share(optional ShareData data = {});

  [SecureContext] boolean canShare(optional ShareData data = {});
};

User agents that do not support sharing SHOULD NOT expose share() on the Navigator interface.

Note
The above statement is designed to permit feature detection. If share() is present, there is a reasonable expectation that it will work and present the user with at least one share target. Clients can use the presence or absence of this method to determine whether to show UI that triggers its use.

2.1.1 Internal Slots

This API adds the following internal slot to the Navigator interface.

Promise? [[sharePromise]]
The [[sharePromise]] is a promise that represents a user's current intent to share some data with a share target. It is initialized to null.

2.1.2 share() method

When the share() method is called with argument data, run the following steps:

  1. If the current settings object's responsible document is not allowed to use the "web-share" permission, return a promise rejected with a "NotAllowedError" DOMException.
  2. If [[sharePromise]] is not null, return a promise rejected with an "InvalidStateError" DOMException.
  3. Let window be relevant global object of this.
  4. If window does not have transient activation, return a promise rejected with a "NotAllowedError" DOMException.
  5. Consume user activation of window.
  6. Let base be this's relevant settings object's API base URL.
  7. If validate share data with data and base returns false, then return a promise rejected with a TypeError.
  8. If data's url member is present:
    1. Let url be the result of running the URL parser on data's url with base.
    2. Assert: url is URL.
    3. Set data to a copy of data, with its url member set to the result of running the URL serializer on url.
  9. If a file type is being blocked due to security considerations, return a promise rejected with a "NotAllowedError" DOMException.
  10. Set [[sharePromise]] to be a new promise.
  11. Return [[sharePromise]] and in parallel:
    1. If there are no share targets available:
      1. Reject [[sharePromise]] with an "AbortError" DOMException.
      2. Set [[sharePromise]] to null.
      3. Abort these steps.
    2. Present the user with a choice of one or more share targets, selected at the user agent's discretion. The user MUST be given the option to cancel rather than choosing any of the share targets. Wait for the user's choice.
    3. If the user chose to cancel the share operation:
      1. Reject [[sharePromise]] with an "AbortError" DOMException,
      2. Set [[sharePromise]] to null.
      3. Abort these steps.
    4. Activate the chosen share target, convert data to a format suitable for ingestion into the target, and transmit the converted data to the target.
    5. If an error occurs starting the target or transmitting the data:
      1. Reject [[sharePromise]] with an "DataError" DOMException.
      2. Set [[sharePromise]] to null.
      3. Abort these steps.
    6. Once the data has either been successfully transmitted to the share target, or successfully transmitted to the OS (if the transmission to the share target cannot be confirmed), resolve [[sharePromise]] with undefined.
    7. Set [[sharePromise]] to null.

The user agent MUST NOT allow the website to learn which share targets are available, or the identity of the chosen target.

Note
share() always shows some form of UI, to give the user a choice of application and get their approval to invoke and send data to a potentially native application (which carries a security risk). For this reason, user agents are prohibited from showing any kind of "always use this target in the future" option, or bypassing the UI if there is only a single share target.

2.1.3 canShare(data) method

When the canShare(data) method is called with argument ShareData data, run the following steps:

  1. If the current settings object's responsible document is not allowed to use "web-share", return false.
  2. Return the result of validate share data with data and this's relevant settings object's API base URL.

2.1.4 Validate share data

To validate share data with data and base, run the following steps:

  1. If none of data's members title, text, or url or files are present, return false.
  2. Let titleTextOrUrl be true if any of title, or text, or url is present.
  3. If data's files member is present:
    1. If titleTextOrUrl is false and data's files member is empty, return false.
      Note

      This causes a { files: [] } dictionary to be treated as an empty dictionary. However, passing a dictionary like {text: "text", files: []} is fine, as files is just ignored.

    2. If the implementation does not support file sharing, return false.
    3. If the user agent believes sharing any of the files in files would result in a potentially hostile share, return false.
  4. If data's url member is present:
    1. Let url be the result of running the URL parser on data's url member, with base, and no encoding override.
    2. If url is failure, return false.
    3. If url is a URL the user agent deems potentially hostile (e.g., "file:") or wouldn't make sense to outside the scope of the document (e.g., "blob:"), return false.

      Issue 178: Limiting to http/https is limiting security-tracker

      #173 was a bit of a learning experience. The fix for that in #174 limits URLs to http or https. That was the most conservative reaction to that issue.

      This means that a number of URI schemes with no known exposure to this vulnerability can no longer be shared. From standard protocols mailto, sip[s], and tel are all examples of schemes that do not invoke actions and should be safe to share. (Why you might use those rather than share a vCard resource is not relevant; these seem valid to me.) Then there are the quasi-standard things like: ipfs, magnet. And a whole bunch of proprietary schemes: acrobat, zoommtg, steam, microsoft-edge (ok, maybe we don't want that...), and so forth.

      Now that the dust has settled, it might be worth examining principles a little closer to determine whether a looser set of constraints can be made to work. @dveditz suggested that we block URLs if we might not permit both navigation or redirection. I think that is a reasonable starting point here. We don't allow navigation or redirects to file:// and so sharing that seems to be primarily a means of circumventing that policy.

      We can't expect that share targets will respect the same policies that a browser does in case it follows an HTTP URL that redirects to file:///, but we are explicitly accepting that risk already by allowing use of HTTP schemes.

  5. Return true.

2.2 ShareData dictionary

WebIDLdictionary ShareData {
  sequence<File> files;
  USVString title;
  USVString text;
  USVString url;
};

The ShareData dictionary consists of several optional members:

files member
Files to be shared.
text member
Arbitrary text that forms the body of the message being shared.
title member
The title of the document being shared. May be ignored by the target.
url member
A URL string referring to a resource being shared.
Note
These members are USVString (as opposed to DOMString) because they are not allowed to contain surrogate code points. Among other things, this means that the user agent can serialize them into any Unicode encoding, such as UTF-8, without change or loss of data or the generation of replacement characters.
Note
The url member can contain a relative-URL string. In this case, it will be automatically resolved relative to the current page location, just like a href on an a element, before being given to the share target.

3. Share targets

A share target is the abstract concept of a destination that the user agent will transmit the share data to. What constitutes a share target is at the discretion of the user agent.

A share target might not be directly able to accept a ShareData (due to not having been written with this API in mind). However, it MUST have the ability to receive data that matches some or all of the concepts exposed in ShareData. To convert data to a format suitable for ingestion into the target, the user agent SHOULD map the members of ShareData onto equivalent concepts in the target. It MAY discard or combine members if necessary. The meaning of each member of the payload is at the discretion of the share target.

Note
Mapping the ShareData to the share target's (or operating system's) native format can be tricky as some platforms will not have an equivalent set of members. For example, if the target has a "text" member but not a "URL" member (as is the case on Android), one solution is to concatenate both the text and url members of ShareData and pass the result in the "text" member of the target.

Each share target MAY be made conditionally available depending on the ShareData payload delivered to the share() method.

Note
Once a share target has been given the payload, the share is considered successful. If the target considers the data unacceptable or an error occurs, it can either recover gracefully, or show an error message to the end-user; it cannot rely on the sender to handle errors. In other words, the share() method is "fire and forget"; it does not wait for the target to approve or reject the payload.

3.1 Examples of share targets

This section is non-normative.

The list of share targets can be populated from a variety of sources, depending on the user agent and host operating system. For example:

Note
There is an attempt to standardize the registration of websites to receive share data for that final use case; see Web Share Target.

In some cases, the host operating system will provide a sharing or intent system similar to Web Share. In these cases, the user agent can simply forward the share data to the operating system and not talk directly to native applications.

4. Permissions Policy integration

This specification defines a policy-controlled permission identified by the string "web-share". Its default allowlist is 'self'.

Note

A document’s permission policy determines whether a share() call immediately rejects with a "NotAllowedError" DOMException.

5. Accessibility considerations

This section is non-normative.

When this specification is used to present information in the user interface, implementors will want to follow the OS level accessibility guidelines for the platform.

6. Security and privacy considerations

This section is non-normative.

Web Share enables data to be sent from websites to native applications. While this ability is not unique to Web Share, it does come with a number of potential security issues that can vary in severity (depending on the underlying platform).

A. Extensibility of this API

This section is non-normative.

The Web Share API is designed to be extended in the future by way of new members added to the ShareData dictionary, to allow both sharing of new types of data (e.g., images) and strings with new semantics (e.g. author).

Warning
This doesn't mean user agents can add whatever members they like. It means that new members can be added to the standard in the future.

The three members title, text, and url, are part of the base feature set, and implementations that provide share() need to accept all three. Any new members that are added in the future will be individually feature-detectable, to allow for backwards-compatibility with older implementations that don't recognize those members. These new members might also be added as optional "MAY" requirements.

Note
There is an open discussion about how to provide feature-detection for dictionary members. Web Share will use the mechanism produced by that discussion.

The share() method returns a rejected promise with a TypeError if none of the specified members are present. The intention is that when a new member is added, it will also be added to this list of recognized members. This is for future-proofing implementations: if a web site written against a future version of this spec uses only new members (e.g., navigator.share({image: x})), it will be valid in future user agents, but a TypeError on user agents implementing an older version of the spec. Developers will be asked to feature-detect any new members they rely on, to avoid having errors surface in their program.

Editors of this spec will want to carefully consider the genericity of any new members being added, avoiding members that are closely associated with a particular service, user agent or operating system, in favour of members that can potentially be applied to a wide range of platforms and targets.

B. Conformance

As well as sections marked as non-normative, all authoring guidelines, diagrams, examples, and notes in this specification are non-normative. Everything else in this specification is normative.

The key words MAY, MUST, MUST NOT, SHOULD, and SHOULD NOT in this document are to be interpreted as described in BCP 14 [RFC2119] [RFC8174] when, and only when, they appear in all capitals, as shown here.

C. IDL Index

WebIDLpartial interface Navigator {
  [SecureContext] Promise<undefined> share(optional ShareData data = {});

  [SecureContext] boolean canShare(optional ShareData data = {});
};

dictionary ShareData {
  sequence<File> files;
  USVString title;
  USVString text;
  USVString url;
};

D. Changlog

This section is non-normative.

E. Acknowledgments

Thanks to the Web Intents team, who laid the groundwork for the web app interoperability use cases. In particular, Paul Kinlan, who did a lot of early advocacy for Web Share.

F. References

F.1 Normative references

[fileapi]
File API. Marijn Kruisselbrink; Arun Ranganathan. W3C. 4 June 2021. W3C Working Draft. URL: https://www.w3.org/TR/FileAPI/
[html]
HTML Standard. Anne van Kesteren; Domenic Denicola; Ian Hickson; Philip Jägenstedt; Simon Pieters. WHATWG. Living Standard. URL: https://html.spec.whatwg.org/multipage/
[permissions-policy]
Permissions Policy. Ian Clelland. W3C. 16 July 2020. W3C Working Draft. URL: https://www.w3.org/TR/permissions-policy-1/
[RFC2119]
Key words for use in RFCs to Indicate Requirement Levels. S. Bradner. IETF. March 1997. Best Current Practice. URL: https://www.rfc-editor.org/rfc/rfc2119
[RFC8174]
Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words. B. Leiba. IETF. May 2017. Best Current Practice. URL: https://www.rfc-editor.org/rfc/rfc8174
[url]
URL Standard. Anne van Kesteren. WHATWG. Living Standard. URL: https://url.spec.whatwg.org/
[WebIDL]
Web IDL. Boris Zbarsky. W3C. 15 December 2016. W3C Editor's Draft. URL: https://heycam.github.io/webidl/

F.2 Informative references

[dom]
DOM Standard. Anne van Kesteren. WHATWG. Living Standard. URL: https://dom.spec.whatwg.org/
[rfc3629]
UTF-8, a transformation format of ISO 10646. F. Yergeau. IETF. November 2003. Internet Standard. URL: https://www.rfc-editor.org/rfc/rfc3629
[secure-contexts]
Secure Contexts. Mike West. W3C. 15 September 2016. W3C Candidate Recommendation. URL: https://www.w3.org/TR/secure-contexts/