HTTP Working Group | I. Grigorik |
Internet-Draft | |
Intended status: Experimental | October 4, 2016 |
Expires: April 7, 2017 |
An increasing diversity of Web-connected devices and software capabilities has created a need to deliver optimized content for each device.¶
This specification defines a set of HTTP request header fields, colloquially known as Client Hints, to address this. They are intended to be used as input to proactive content negotiation; just as the Accept header field allows clients to indicate what formats they prefer, Client Hints allow clients to indicate a list of device and agent specific preferences.¶
Discussion of this draft takes place on the HTTP working group mailing list (ietf-http-wg@w3.org), which is archived at https://lists.w3.org/Archives/Public/ietf-http-wg/.¶
Working Group information can be found at http://httpwg.github.io/; source code and issues list for this draft can be found at https://github.com/httpwg/http-extensions/labels/client-hints.¶
This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79.¶
Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet-Drafts is at http://datatracker.ietf.org/drafts/current/.¶
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This Internet-Draft will expire on April 7, 2017.¶
Copyright (c) 2016 IETF Trust and the persons identified as the document authors. All rights reserved.¶
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There are thousands of different devices accessing the web, each with different device capabilities and preference information. These device capabilities include hardware and software characteristics, as well as dynamic user and client preferences.¶
One way to infer some of these capabilities is through User-Agent (UA; Section 5.5.3 of [RFC7231]) detection against an established database of client signatures. However, this technique requires acquiring such a database, integrating it into the serving path, and keeping it up to date. However, even once this infrastructure is deployed, UA sniffing has numerous limitations:¶
A popular alternative strategy is to use HTTP cookies ([RFC6265]) to communicate some information about the client. However, this approach is also not cache friendly, bound by same origin policy, and imposes additional client-side latency by requiring JavaScript execution to create and manage HTTP cookies.¶
This document defines a set of new request header fields that allow the client to perform proactive content negotiation (Section 3.4.1 of [RFC7231]) by indicating a list of device and agent specific preferences, through a mechanism similar to the Accept header field which is used to indicate preferred response formats.¶
Client Hints does not supersede or replace the User-Agent header field. Existing device detection mechanisms can continue to use both mechanisms if necessary. By advertising its capabilities within a request header field, Client Hints allows for cache friendly and proactive content negotiation.¶
A Client Hint request header field is a HTTP header field that is used by HTTP clients to indicate configuration data that can be used by the server to select an appropriate response. Each one conveys a list of client preferences that the server can use to adapt and optimize the response.¶
Clients control which Client Hint headers and their respective header fields are communicated, based on their default settings, user configuration and/or preferences. The user can be given the choice to enable, disable, or override specific hints.¶
The client and server, or an intermediate proxy, can use an opt-in mechanism to negotiate which fields should be reported to allow for efficient content adaption.¶
Servers respond with an optimized response based on one or more received hints from the client. When doing so, and if the resource is cacheable, the server MUST also emit a Vary response header field (Section 7.1.4 of [RFC7231]), and optionally Key ([I-D.ietf-httpbis-key]), to indicate which hints can affect the selected response and whether the selected response is appropriate for a later request.¶
Further, depending on the used hint, the server can emit additional response header fields to confirm the property of the response, such that the client can adjust its processing. For example, this specification defines “Content-DPR” response header field that needs to be returned by the server when the “DPR” hint is used to select the response.¶
Servers can advertise support for Client Hints using the Accept-CH header field or an equivalent HTML meta element with http-equiv attribute ([W3C.REC-html5-20141028]).¶
Accept-CH = #field-name
For example:¶
Accept-CH: DPR, Width, Viewport-Width, Downlink
When a client receives Accept-CH, or if it is capable of processing the HTML response and finds an equivalent HTML meta element, it SHOULD append the Client-Hint header fields that match the advertised field-values to the header list of all subsequent requests. For example, based on Accept-CH example above, a user agent could append DPR, Width, Viewport-Width, and Downlink header fields to all subresource requests initiated by the page constructed from the response. Alternatively, a client can treat advertised support as a persistent origin preference and append same header fields on all future requests initiated to and by the resources associated with that origin.¶
When selecting an optimized response based on one or more Client Hints, and if the resource is cacheable, the server needs to emit a Vary response header field ([RFC7234]) to indicate which hints can affect the selected response and whether the selected response is appropriate for a later request.¶
Vary: DPR
Above example indicates that the cache key needs to include the DPR header field.¶
Vary: DPR, Width, Downlink
Above example indicates that the cache key needs to include the DPR, Width, and Downlink header fields.¶
Client Hints MAY be combined with Key ([I-D.ietf-httpbis-key]) to enable fine-grained control of the cache key for improved cache efficiency. For example, the server can return the following set of instructions:¶
Key: DPR;partition=1.5:2.5:4.0
Above example indicates that the cache key needs to include the value of the DPR header field with three segments: less than 1.5, 1.5 to less than 2.5, and 4.0 or greater.¶
Key: Width;div=320
Above example indicates that the cache key needs to include the value of the Width header field and be partitioned into groups of 320: 0-320, 320-640, and so on.¶
Key: Downlink;partition=0.5:1.0:3.0:5.0:10
Above example indicates that the cache key needs to include the (Mbps) value of the Downlink header field with six segments: less than 0.5, 0.5 to less than 1.0, 1.0 to less than 3.0, 3.0 to less than 5.0, 5.0 to less than 10; 10 or higher.¶
The “DPR” request header field is a number that indicates the client’s current Device Pixel Ratio (DPR), which is the ratio of physical pixels over CSS px (Section 5.2 of [W3C.CR-css-values-3-20150611]) of the layout viewport (Section 9.1.1 of [CSS2]) on the device.¶
DPR = 1*DIGIT [ "." 1*DIGIT ]
If DPR occurs in a message more than once, the last value overrides all previous occurrences.¶
The “Content-DPR” response header field is a number that indicates the ratio between physical pixels over CSS px of the selected image response.¶
Content-DPR = 1*DIGIT [ "." 1*DIGIT ]
DPR ratio affects the calculation of intrinsic size of image resources on the client - i.e. typically, the client automatically scales the natural size of the image by the DPR ratio to derive its display dimensions. As a result, the server MUST explicitly indicate the DPR of the selected image response whenever the DPR hint is used, and the client MUST use the DPR value returned by the server to perform its calculations. In case the server returned Content-DPR value contradicts previous client-side DPR indication, the server returned value MUST take precedence.¶
Note that DPR confirmation is only required for image responses, and the server does not need to confirm the resource width as this value can be derived from the resource itself once it is decoded by the client.¶
If Content-DPR occurs in a message more than once, the last value overrides all previous occurrences.¶
The “Width” request header field is a number that indicates the desired resource width in physical px (i.e. intrinsic size of an image). The provided physical px value is a number rounded to the smallest following integer (i.e. ceiling value).¶
Width = 1*DIGIT
If the desired resource width is not known at the time of the request or the resource does not have a display width, the Width header field can be omitted. If Width occurs in a message more than once, the last value overrides all previous occurrences.¶
The “Viewport-Width” request header field is a number that indicates the layout viewport width in CSS px. The provided CSS px value is a number rounded to the smallest following integer (i.e. ceiling value).¶
Viewport-Width = 1*DIGIT
If Viewport-Width occurs in a message more than once, the last value overrides all previous occurrences.¶
The “Downlink” request header field is a number that indicates the client’s maximum downlink speed in megabits per second (Mbps), as defined by the “downlinkMax” attribute in the W3C Network Information API ([NETINFO]).¶
Downlink = 1*DIGIT [ "." 1*DIGIT ]
If Downlink occurs in a message more than once, the minimum value should be used to override other occurrences.¶
The “Save-Data” request header field consists of one or more tokens that indicate client’s preference for reduced data usage, due to high transfer costs, slow connection speeds, or other reasons.¶
Save-Data = sd-token *( OWS ";" OWS [sd-token] ) sd-token = token
This document defines the “on” sd-token value, which is used as a signal indicating explicit user opt-in into a reduced data usage mode on the client, and when communicated to origins allows them to deliver alternate content honoring such preference - e.g. smaller image and video resources, alternate markup, and so on. New token and extension token values can only be defined by revisions of this specification.¶
For example, given the following request header fields:¶
DPR: 2.0 Width: 320 Viewport-Width: 320
The server knows that the device pixel ratio is 2.0, that the intended display width of the requested resource is 160 CSS px (320 physical pixels at 2x resolution), and that the viewport width is 320 CSS px.¶
If the server uses above hints to perform resource selection for an image asset, it must confirm its selection via the Content-DPR response header to allow the client to calculate the appropriate intrinsic size of the image response. The server does not need to confirm resource width, only the ratio between physical pixels and CSS px of the selected image resource:¶
Content-DPR: 1.0
The Content-DPR response header field indicates to the client that the server has selected resource with DPR ratio of 1.0. The client can use this information to perform additional processing on the resource - for example, calculate the appropriate intrinsic size of the image resource such that it is displayed at the correct resolution.¶
Alternatively, the server could select an alternate resource based on the maximum downlink speed advertised in the request header fields:¶
Downlink: 0.384
The server knows that the client’s maximum downlink speed is 0.384Mbps (GPRS EDGE), and it can use this information to select an optimized resource - for example, an alternate image asset, stylesheet, HTML document, media stream, and so on.¶
Client Hints defined in this specification do not expose new information about the user’s environment beyond what is already available to, and can be communicated by, the application at runtime via JavaScript and CSS. For example, the application can obtain viewport width, image display width, and device pixel ratio via JavaScript, or through the use of CSS media queries and unique resource URLs even if JavaScript is disabled. However, implementors should consider the privacy implications of various methods to enable delivery of Client Hints - see “Sending Client Hints” section.¶
For example, sending Client Hints on all requests can make information about the user’s environment available to origins that otherwise did not have access to this data, which may or may not be the desired outcome - e.g. this may enable an image optimization service to deliver a tailored asset, and it may reveal same information about the user to other origins that may not have had access to it before. Similarly, sending highly granular data, such as image and viewport width may help identify users across multiple requests. Restricting such field values to an enumerated range, where the user agent advertises a threshold value that is close but is not an exact representation of the current value, might reduce such fingerprinting risks.¶
The implementers can provide mechanisms and policies to control how and when such hints are advertised: require origin opt-in and restrict delivery to same origin subrequests; limit delivery to requests that already carry indentifying information (e.g. cookies); modify delivery policy when in an “incognito” or a similar privacy mode; enable user configuration and opt in, and so on.¶
This document defines the “Accept-CH”, “DPR”, “Width”, and “Downlink” HTTP request fields, “Content-DPR” HTTP response field, and registers them in the Permanent Message Header Fields registry.¶
None yet.¶