Referrer Policy

Referrer Policy

Editor’s Draft,

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(Google Inc.)
Tests:
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Abstract

This document describes how an author can set a referrer policy for documents they create, and the impact of such a policy on the Referer HTTP header for outgoing requests and navigations.

Status of this document

This is a public copy of the editors’ draft. It is provided for discussion only and may change at any moment. Its publication here does not imply endorsement of its contents by W3C. Don’t cite this document other than as work in progress.

Changes to this document may be tracked at https://github.com/w3c/webappsec.

The (archived) public mailing list public-webappsec@w3.org (see instructions) is preferred for discussion of this specification. When sending e-mail, please put the text “REFERRER-POLICY” in the subject, preferably like this: “[REFERRER-POLICY] …summary of comment…

This document was produced by the Web Application Security Working Group.

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 03 November 2023 W3C Process Document.

1. Introduction

This section is not normative.

Requests made from a document, and for navigations away from that document are associated with a Referer header. While the header can be suppressed for links with the noreferrer link type, authors might wish to control the Referer header more directly for a number of reasons:

1.1. Privacy

A social networking site has a profile page for each of its users, and users add hyperlinks from their profile page to their favorite bands. The social networking site might not wish to leak the user’s profile URL to the band web sites when other users follow those hyperlinks (because the profile URLs might reveal the identity of the owner of the profile).

Some social networking sites, however, might wish to inform the band web sites that the links originated from the social networking site but not reveal which specific user’s profile contained the links.

1.2. Security

A web application uses HTTPS and a URL-based session identifier. The web application might wish to link to HTTPS resources on other web sites without leaking the user’s session identifier in the URL.

Alternatively, a web application may use URLs which themselves grant some capability. Controlling the referrer can help prevent these capability URLs from leaking via referrer headers. [CAPABILITY-URLS]

Note that there are other ways for capability URLs to leak, and controlling the referrer is not enough to control all those potential leaks.

1.3. Trackback

A blog hosted over HTTPS might wish to link to a blog hosted over HTTP and receive trackback links.

2. Key Concepts and Terminology

referrer policy
A referrer policy modifies the algorithm used to populate the Referer header when fetching subresources, prefetching, or performing navigations. This document defines the various behaviors for each referrer policy.

Every environment settings object has an algorithm for obtaining a referrer policy, which is used by default for all requests with that environment settings object as their client.

same-origin-referrer request
A Request request is a same-origin-referrer request if the origin of request’s referrerURL and the origin of request’s current URL are the same.
cross-origin-referrer request
A Request is a cross-origin-referrer request if it is not a same-origin-referrer request.

3. Referrer Policies

A referrer policy is the empty string, "no-referrer", "no-referrer-when-downgrade", "same-origin", "origin", "strict-origin", "origin-when-cross-origin", "strict-origin-when-cross-origin", or "unsafe-url".

enum ReferrerPolicy {
  "",
  "no-referrer",
  "no-referrer-when-downgrade",
  "same-origin",
  "origin",
  "strict-origin",
  "origin-when-cross-origin",
  "strict-origin-when-cross-origin",
  "unsafe-url"
};

Each possible referrer policy is explained below. A detailed algorithm for evaluating their effect is given in the § 5 Integration with Fetch and § 8 Algorithms sections.

Note: The referrer policy for an environment settings object provides a default baseline policy for requests when that environment settings object is used as a request client. This policy may be tightened for specific requests via mechanisms like the noreferrer link type.

The default referrer policy is "strict-origin-when-cross-origin".

3.1. "no-referrer"

The simplest policy is "no-referrer", which specifies that no referrer information is to be sent along with requests to any origin. The header Referer will be omitted entirely.

If a document at https://example.com/page.html sets a policy of "no-referrer", then navigations to https://example.com/ (or any other URL) would send no Referer header.

3.2. "no-referrer-when-downgrade"

The "no-referrer-when-downgrade" policy sends a request’s full referrerURL stripped for use as a referrer for requests:

Requests whose referrerURL is a potentially trustworthy URL and whose current URL is a non-potentially trustworthy URL on the other hand, will contain no referrer information. A Referer HTTP header will not be sent.

If a document at https://example.com/page.html sets a policy of "no-referrer-when-downgrade", then navigations to https://not.example.com/ would send a Referer HTTP header with a value of https://example.com/page.html, as neither resource’s origin is a non-potentially trustworthy URL.

Navigations from that same page to http://not.example.com/ would send no Referer header.

3.3. "same-origin"

The "same-origin" policy specifies that a request’s full referrerURL is sent as referrer information when making same-origin-referrer requests.

Cross-origin-referrer requests, on the other hand, will contain no referrer information. A Referer HTTP header will not be sent.

If a document at https://example.com/page.html sets a policy of "same-origin", then navigations to https://example.com/not-page.html would send a Referer header with a value of https://example.com/page.html.

Navigations from that same page to https://not.example.com/ would send no Referer header.

If a document at https://example.com/page.html sets a policy of "same-origin", and fetches a module script at https://script.example.com, which then fetches a descendant script at https://example.com/descendant.js, the request for the descendant script would send no Referer header.

This is because the descendant script request’s current URL is https://example.com/descendant.js, while its referrerURL is https://script.example.com, making the request cross-origin-referrer.

3.4. "origin"

The "origin" policy specifies that only the ASCII serialization of the request’s referrerURL is sent as referrer information when making both same-origin-referrer requests and cross-origin-referrer requests.

Note: The serialization of an origin looks like https://example.com. To ensure that a valid URL is sent in the `Referer` header, user agents will append a U+002F SOLIDUS ("/") character to the origin (e.g. https://example.com/).

Note: The "origin" policy allows the origin of HTTPS referrers to be sent over the network as part of unencrypted HTTP requests. The "strict-origin" policy addresses this concern.

If a document at https://example.com/page.html sets a policy of "origin", then navigations to any origin would send a Referer header with a value of https://example.com/, even to URLs that are not potentially trustworthy URL.
If a document at https://example.com/page.html sets a policy of "origin", and fetches a module script at https://script.example.com, which fetches a descendant script at https://descendant.example.com, the request for the descendant script will send a Referer header with a value of https://script.example.com/.

3.5. "strict-origin"

The "strict-origin" policy sends the ASCII serialization of the origin of the referrerURL for requests:

Requests whose referrerURL is a potentially trustworthy URL and whose current URL is a non-potentially trustworthy URL on the other hand, will contain no referrer information. A Referer HTTP header will not be sent.

If a document at https://example.com/page.html sets a policy of "strict-origin", then navigations to https://not.example.com would send a Referer header with a value of https://example.com/.

Navigations from that same page to http://not.example.com would send no Referer header.

If a document at http://example.com/page.html sets a policy of "strict-origin", then navigations to http://not.example.com or https://example.com would send a Referer header with a value of http://example.com/.
If a document at http://example.com/page.html sets a policy of "strict-origin", and fetches a module script at https://script.example.com, which then fetches a descendant script at http://descendant.example.com, the request to the descendant script would not send a Referrer header.

3.6. "origin-when-cross-origin"

The "origin-when-cross-origin" policy specifies that a request’s full referrerURL is sent as referrer information when making same-origin-referrer requests, and only the ASCII serialization of the origin of the request’s referrerURL is sent as referrer information when making cross-origin-referrer requests.

Note: For the "origin-when-cross-origin" policy, we also consider protocol upgrades, e.g. requests from http://example.com/ to https://example.com/, to be cross-origin-referrer requests.

Note: The "origin-when-cross-origin" policy allows the origin of HTTPS referrers to be sent over the network as part of unencrypted HTTP requests. The "strict-origin-when-cross-origin" policy addresses this concern.

If a document at https://example.com/page.html sets a policy of "origin-when-cross-origin", then navigations to https://example.com/not-page.html would send a Referer header with a value of https://example.com/page.html.

Navigations from that same page to https://not.example.com/ would send a Referer header with a value of https://example.com/, even to URLs that are not potentially trustworthy URLs.

If a document at https://example-1.com sets a policy of "origin-when-cross-origin", and fetches a module script at https://example-2.com/module.js, which then fetches a descendant script at https://example-1.com/descendant.js, the request to the descendant script would send a Referer header with a value of https://example-2.com/.
If a document at https://example-1.com sets a policy of "origin-when-cross-origin", and fetches a module script at https://example-2.com/module.js, which then fetches a descendant script at https://example-2.com/descendant.js, the request to the descendant script would send a Referer header with a value of https://example-2.com/module.js.

3.7. "strict-origin-when-cross-origin"

The "strict-origin-when-cross-origin" policy specifies that a request’s full referrerURL is sent as referrer information when making same-origin-referrer requests, and only the ASCII serialization of the origin of the request’s referrerURL when making cross-origin-referrer requests:

Requests whose referrerURL is a potentially trustworthy URL and whose current URL is a non-potentially trustworthy URL on the other hand, will contain no referrer information. A Referer HTTP header will not be sent.

If a document at https://example.com/page.html sets a policy of "strict-origin-when-cross-origin", then navigations to https://example.com/not-page.html would send a Referer header with a value of https://example.com/page.html.

Navigations from that same page to https://not.example.com/ would send a Referer header with a value of https://example.com/.

Navigations from that same page to http://not.example.com/ would send no Referer header.

If a document at https://example.com/page.html sets a policy of "strict-origin-when-cross-origin", and fetches a module script at https://script.example.com which then fetches a descendant script at http://descendant.example.com, the request to the descendant script would send no Referer header.

This policy is the user agent’s default, and will be applied if no policy is otherwise specified.

3.8. "unsafe-url"

The "unsafe-url" policy specifies that a request’s full referrerURL is sent along for both same-origin-referrer requests and cross-origin-referrer requests.

If a document at https://example.com/sekrit.html sets a policy of "unsafe-url", then navigations to http://not.example.com/ (and every other origin) would send a Referer HTTP header with a value of https://example.com/sekrit.html.

Note: The policy’s name doesn’t lie; it is unsafe. This policy will leak origins and paths from secure resources to insecure origins. Carefully consider the impact of setting such a policy for potentially sensitive documents.

3.9. The empty string

The empty string "" corresponds to no referrer policy, causing a fallback to a referrer policy defined elsewhere, or in the case where no such higher-level policy is available, falling back to the default referrer policy. This happens in Fetch’s main fetch algorithm, for example.

Given a HTML a element without any declared referrerpolicy attribute, its referrer policy is the empty string. Thus, navigation requests initiated by clicking on that a element will be sent with the a element’s node document’s policy container’s referrer policy. If that Document has the empty string as its referrer policy, the § 8.3 Determine request’s Referrer algorithm will treat the empty string the same as "strict-origin-when-cross-origin".

4. Referrer Policy Delivery

A request’s referrer policy is delivered in one of five ways:

4.1. Delivery via Referrer-Policy header

The Referrer-Policy HTTP header specifies the referrer policy that the user agent applies when determining what referrer information should be included with requests made, and with browsing contexts created from the context of the protected resource.

The syntax for the name and value of the header are described by the following ABNF grammar. ABNF is defined in [RFC5234], and the #rule ABNF extension used below is defined in Section 5.6.1 of [RFC9110].

"Referrer-Policy:" 1#(policy-token / extension-token)
policy-token = "no-referrer" / "no-referrer-when-downgrade" / "strict-origin" / "strict-origin-when-cross-origin" / "same-origin" / "origin" / "origin-when-cross-origin" / "unsafe-url"
extension-token = 1*( ALPHA / "-" )

Note: The header name does not share the HTTP Referer header’s misspelling.

Note: The purpose of extension-token is so that browsers do not fail to parse the entire header field if it includes an unknown policy value. § 11.1 Unknown Policy Values describes in greater detail how new policy values can be deployed.

Note: The quotes in the ABNF above are used to indicate literal strings. Referrer-Policy header values should not be quoted.

§ 5 Integration with Fetch and § 6 Integration with HTML describe how the Referrer-Policy header is processed.

4.1.1. Usage

This section is not normative.

A protected resource can prevent referrer leakage by specifying no-referrer as the value of its Referrer-Policy header:

Referrer-Policy: no-referrer

This will cause all requests made from the protected resource’s context to have an empty Referer [sic] header.

4.2. Delivery via meta

This section is not normative.

The HTML Standard defines the referrer keyword for the meta element, which allows setting the referrer policy via markup.

4.3. Delivery via a referrerpolicy content attribute

This section is not normative.

The HTML Standard defines the concept of referrer policy attributes which applies to several of its elements, for example:

<a href="http://example.com" referrerpolicy="origin">

4.4. Referrer Policy Inheritance

This section is not normative.

Referrer policy is inherited following the inheritance mechanism of policy containers, as defined by HTML.

5. Integration with Fetch

This section is not normative.

The Fetch specification calls out to § 8.2 Set request’s referrer policy on redirect before Step 19 of the HTTP-redirect fetch, so that a request’s referrer policy can be updated before following a redirect.

The Fetch specification calls out to § 8.3 Determine request’s Referrer as Step 8 of the Main fetch algorithm, and uses the result to set the request’s referrer property. Fetch is responsible for serializing the URL provided, and setting the `Referer` header on request.

6. Integration with HTML

This section is not normative.

The HTML Standard determines the referrer policy of any response received during navigation or while running a worker, and uses the result to set the resulting Document's policy container’s or WorkerGlobalScope's policy container’s referrer policy.

7. Integration with CSS

The CSS Standard does not specify how it fetches resources referenced from stylesheets. However, implementations should be sure to set the referrer-related properties of any requests initiated by stylesheets as follows:

  1. If a CSS style sheet is responsible for the request, and its location is non-null, set the referrer to its location, and the referrer policy to its referrer policy.

    This requires that CSS style sheets process `Referrer-Policy` headers, and store a referrer policy in the same way that Documents do.

  2. If a CSS style sheet with a null location is responsible for the request, set the referrer to its owner node’s node document’s URL, and the referrer policy to its owner node’s node document’s policy container’s referrer policy.
  3. Otherwise, a CSS declaration block that was created by the embedder is responsible for the request - either from parsing of an element’s style attribute, or to implement an presentational hint for an element. We assume that in this case the CSS declaration block’s owner node points to that element, and set the referrer to the block’s owner node’s node document’s URL, and the referrer policy to the block’s owner node’s node document’s policy container’s referrer policy.

Note: Both the value of the request’s referrer and referrer policy are set based on the values at the time a given request is created. If a document’s referrer policy changes during its lifetime, the policy associated with inline stylesheet requests will also change.

8. Algorithms

8.1. Parse a referrer policy from a Referrer-Policy header

Given a response response, the following steps return a referrer policy according to response’s `Referrer-Policy` header:

  1. Let policy-tokens be the result of extracting header list values given `Referrer-Policy` and response’s header list.
  2. Let policy be the empty string.
  3. For each token in policy-tokens, if token is a referrer policy and token is not the empty string, then set policy to token.

    Note: This algorithm loops over multiple policy values to allow deployment of new policy values with fallbacks for older user agents, as described in § 11.1 Unknown Policy Values.

  4. Return policy.

8.2. Set request’s referrer policy on redirect

Given a request request and a response actualResponse, this algorithm updates request’s referrer policy according to the Referrer-Policy header (if any) in actualResponse.

  1. Let policy be the result of executing § 8.1 Parse a referrer policy from a Referrer-Policy header on actualResponse.
  2. If policy is not the empty string, then set request’s referrer policy to policy.

8.3. Determine request’s Referrer

Given a request request, we can determine the correct referrer information to send by examining its referrer policy as detailed in the following steps, which return either no referrer or a URL:

  1. Let policy be request’s referrer policy.
  2. Let environment be request’s client.
  3. Switch on request’s referrer:
    "client"
    1. If environment’s global object is a Window object, then
      1. Let document be the associated Document of environment’s global object.
      2. If document’s origin is an opaque origin, return no referrer.
      3. While document is an iframe srcdoc document, let document be document’s browsing context’s browsing context container’s node document.
      4. Let referrerSource be document’s URL.
    2. Otherwise, let referrerSource be environment’s creation URL.
    a URL
    Let referrerSource be request’s referrer.

    Note: If request’s referrer is "no-referrer", Fetch will not call into this algorithm.

  4. Let request’s referrerURL be the result of stripping referrerSource for use as a referrer.
  5. Let referrerOrigin be the result of stripping referrerSource for use as a referrer, with the origin-only flag set to true.
  6. If the result of serializing referrerURL is a string whose length is greater than 4096, set referrerURL to referrerOrigin.
  7. The user agent MAY alter referrerURL or referrerOrigin at this point to enforce arbitrary policy considerations in the interests of minimizing data leakage. For example, the user agent could strip the URL down to an origin, modify its host, replace it with an empty string, etc.
  8. Execute the statements corresponding to the value of policy:
    Note: If request’s referrer policy is the empty string, Fetch will not call into this algorithm.
    "no-referrer"
    Return no referrer
    "origin"
    Return referrerOrigin
    "unsafe-url"
    Return referrerURL.
    "strict-origin"
    1. If referrerURL is a potentially trustworthy URL and request’s current URL is not a potentially trustworthy URL, then return no referrer.
    2. Return referrerOrigin.
    "strict-origin-when-cross-origin"
    1. If the origin of referrerURL and the origin of request’s current URL are the same, then return referrerURL.
    2. If referrerURL is a potentially trustworthy URL and request’s current URL is not a potentially trustworthy URL, then return no referrer.
    3. Return referrerOrigin.
    "same-origin"
    1. If the origin of referrerURL and the origin of request’s current URL are the same, then return referrerURL.

      Note: This same-origin check determines whether or not the request is same-origin-referrer.

    2. Return no referrer.
    "origin-when-cross-origin"
    1. If the origin of referrerURL and the origin of request’s current URL are the same, then return referrerURL.
    2. Return referrerOrigin.
    "no-referrer-when-downgrade"
    1. If referrerURL is a potentially trustworthy URL and request’s current URL is not a potentially trustworthy URL, then return no referrer.
    2. Return referrerURL.

8.4. Strip url for use as a referrer

Certain portions of URLs must not be included when sending a URL as the value of a `Referer` header: a URLs fragment, username, and password components must be stripped from the URL before it’s sent out. This algorithm accepts a origin-only flag, which defaults to false. If set to true, the algorithm will additionally remove the URL’s path and query components, leaving only the scheme, host, and port.

  1. Assert: url is a URL.
  2. If url’s scheme is a local scheme, then return no referrer.
  3. Set url’s username to the empty string.
  4. Set url’s password to the empty string.
  5. Set url’s fragment to null.
  6. If the origin-only flag is true, then:
    1. Set url’s path to « the empty string ».
    2. Set url’s query to null.
  7. Return url.

9. Privacy Considerations

9.1. User Controls

Nothing in this specification should be interpreted as preventing user agents from offering options to users which would change the information sent out via a `Referer` header. For instance, user agents MAY allow users to suppress the referrer header entirely, regardless of the active referrer policy on a page.

10. Security Considerations

10.1. Information Leakage

The referrer policies "origin", "origin-when-cross-origin" and "unsafe-url" might leak the origin and the URL of a secure site respectively via insecure transport.

Those three policies are included in the spec nevertheless to lower the friction of sites adopting secure transport.

Authors wanting to ensure that they do not leak any more information than the default policy should instead use the policy states "same-origin", "strict-origin", or "no-referrer".

10.2. Downgrade to less strict policies

The spec does not forbid downgrading to less strict policies, e.g., from "no-referrer" to "unsafe-url".

On the one hand, it is not clear which policy is more strict for all possible pairs of policies: While "no-referrer-when-downgrade" will not leak any information over insecure transport, and "origin" will, the latter reveals less information across cross-origin navigations.

On the other hand, allowing for setting less strict policies enables authors to define safe fallbacks as described in § 11.1 Unknown Policy Values.

11. Authoring Considerations

11.1. Unknown Policy Values

As described in § 8.1 Parse a referrer policy from a Referrer-Policy header and in the meta referrer algorithm, unknown policy values will be ignored, and when multiple sources specify a referrer policy, the value of the latest one will be used. This makes it possible to deploy new policy values.

Suppose older user agents don’t understand the "unsafe-url" policy. A site can specify an "origin" policy followed by an "unsafe-url" policy: older user agents will ignore the unknown "unsafe-url" value and use "origin", while newer user agents will use "unsafe-url" because it is the last to be processed.
To specify multiple policy values in the Referrer-Policy header, a site can send multiple Referrer-Policy headers:
Referrer-Policy: no-referrer
Referrer-Policy: unsafe-url

or, equivalently, multiple comma-separated header values:

Referrer-Policy: no-referrer,unsafe-url

This behavior does not, however, apply to the referrerpolicy attribute. Authors may dynamically set and get the referrerpolicy attribute to detect whether a particular policy value is supported.

12. Acknowledgements

This specification is based in large part on Adam Barth and Jochen Eisinger’s Meta referrer document.

Francois Marier contributed the same-origin, strict-origin, and strict-origin-when-cross-origin policies.

Conformance

Document conventions

Conformance requirements are expressed with a combination of descriptive assertions and RFC 2119 terminology. The key words “MUST”, “MUST NOT”, “REQUIRED”, “SHALL”, “SHALL NOT”, “SHOULD”, “SHOULD NOT”, “RECOMMENDED”, “MAY”, and “OPTIONAL” in the normative parts of this document are to be interpreted as described in RFC 2119. However, for readability, these words do not appear in all uppercase letters in this specification.

All of the text of this specification is normative except sections explicitly marked as non-normative, examples, and notes. [RFC2119]

Examples in this specification are introduced with the words “for example” or are set apart from the normative text with class="example", like this:

This is an example of an informative example.

Informative notes begin with the word “Note” and are set apart from the normative text with class="note", like this:

Note, this is an informative note.

Conformant Algorithms

Requirements phrased in the imperative as part of algorithms (such as "strip any leading space characters" or "return false and abort these steps") are to be interpreted with the meaning of the key word ("must", "should", "may", etc) used in introducing the algorithm.

Conformance requirements phrased as algorithms or specific steps can be implemented in any manner, so long as the end result is equivalent. In particular, the algorithms defined in this specification are intended to be easy to understand and are not intended to be performant. Implementers are encouraged to optimize.

Index

Terms defined by this specification

Terms defined by reference

References

Normative References

[CSSOM-1]
Daniel Glazman; Emilio Cobos Álvarez. CSS Object Model (CSSOM). URL: https://drafts.csswg.org/cssom/
[DOM]
Anne van Kesteren. DOM Standard. Living Standard. URL: https://dom.spec.whatwg.org/
[FETCH]
Anne van Kesteren. Fetch Standard. Living Standard. URL: https://fetch.spec.whatwg.org/
[HTML]
Anne van Kesteren; et al. HTML Standard. Living Standard. URL: https://html.spec.whatwg.org/multipage/
[INFRA]
Anne van Kesteren; Domenic Denicola. Infra Standard. Living Standard. URL: https://infra.spec.whatwg.org/
[RFC2119]
S. Bradner. Key words for use in RFCs to Indicate Requirement Levels. March 1997. Best Current Practice. URL: https://datatracker.ietf.org/doc/html/rfc2119
[RFC5234]
D. Crocker, Ed.; P. Overell. Augmented BNF for Syntax Specifications: ABNF. January 2008. Internet Standard. URL: https://www.rfc-editor.org/rfc/rfc5234
[RFC9110]
R. Fielding, Ed.; M. Nottingham, Ed.; J. Reschke, Ed.. HTTP Semantics. June 2022. Internet Standard. URL: https://httpwg.org/specs/rfc9110.html
[SECURE-CONTEXTS]
Mike West. Secure Contexts. URL: https://w3c.github.io/webappsec-secure-contexts/
[URL]
Anne van Kesteren. URL Standard. Living Standard. URL: https://url.spec.whatwg.org/

Informative References

[CAPABILITY-URLS]
Jeni Tennison. Good Practices for Capability URLs. URL: https://w3ctag.github.io/capability-urls/

IDL Index

enum ReferrerPolicy {
  "",
  "no-referrer",
  "no-referrer-when-downgrade",
  "same-origin",
  "origin",
  "strict-origin",
  "origin-when-cross-origin",
  "strict-origin-when-cross-origin",
  "unsafe-url"
};

Issues Index

This requires that CSS style sheets process `Referrer-Policy` headers, and store a referrer policy in the same way that Documents do.
MDN

Element/meta/name

In all current engines.

Firefox1+Safari4+Chrome1+
Opera12.1+Edge79+
Edge (Legacy)12+IE6+
Firefox for Android?iOS Safari?Chrome for Android?Android WebView?Samsung Internet?Opera Mobile12.1+
MDN

Headers/Referrer-Policy

In all current engines.

Firefox50+Safari11.1+Chrome56+
Opera?Edge79+
Edge (Legacy)?IENone
Firefox for Android?iOS Safari12+Chrome for Android?Android WebView?Samsung Internet7.2+Opera Mobile?