title: No-Vary-Search abbrev: category: std
docname: draft-ietf-httpbis-no-vary-search-latest submissiontype: IETF number: date: consensus: true v: 3 area: "Applications" workgroup: "HyperText Transfer Protocol" keyword:
- http
- caching venue: group: HTTP type: Working Group home: https://httpwg.org/ mail: ietf-http-wg@w3.org arch: https://lists.w3.org/Archives/Public/ietf-http-wg/ repo: https://github.com/httpwg/http-extensions/labels/no-vary-search latest: "https://httpwg.org/http-extensions/draft-ietf-httpbis-no-vary-search.html" github-issue-label: no-vary-search
fullname: Domenic Denicola
organization: Google LLC
email: d@domenic.me
- fullname: Jeremy Roman organization: Google LLC email: jbroman@chromium.org
normative: FETCH: target: https://fetch.spec.whatwg.org/ title: Fetch Living Standard author: - ins: A. van Kesteren name: Anne van Kesteren org: Apple Inc. ann: WHATWG STRUCTURED-FIELDS: RFC8941 WHATWG-ENCODING: target: https://encoding.spec.whatwg.org/ title: Encoding Living Standard author: - ins: A. van Kesteren name: Anne van Kesteren org: Apple Inc. ann: WHATWG WHATWG-INFRA: target: https://infra.spec.whatwg.org/ title: Infra Living Standard author: - ins: A. van Kesteren name: Anne van Kesteren org: Apple Inc. - ins: D. Denicola name: Domenic Denicola org: Google LLC ann: WHATWG WHATWG-URL: target: https://url.spec.whatwg.org/ title: URL Living Standard author: - ins: A. van Kesteren name: Anne van Kesteren org: Apple Inc. ann: WHATWG
informative: HTML: target: https://html.spec.whatwg.org/ title: HTML Living Standard author: - ins: A. van Kesteren name: Anne van Kesteren org: Apple Inc. ann: WHATWG NAV-TRACKING-MITIGATIONS: target: https://privacycg.github.io/nav-tracking-mitigations/ title: Navigational-Tracking Mitigations author: - ins: P. Snyder name: Pete Snyder org: Brave Software, Inc. - ins: J. Yasskin name: Jeffrey Yasskin org: Google LLC ann: W3C Privacy CG
--- abstract
A proposed HTTP header field for changing how URL search parameters impact caching.
--- middle
{::boilerplate bcp14-tagged}
This document also adopts some conventions and notation typical in WHATWG and W3C usage, especially as it relates to algorithms. See {{WHATWG-INFRA}}.
The No-Vary-Search
HTTP header field is a structured field {{STRUCTURED-FIELDS}} whose value must be a dictionary ({{Section 3.2 of STRUCTURED-FIELDS}}).
It has the following authoring conformance requirements:
- If present, the
key-order
entry's value must be a boolean ({{Section 3.3.6 of STRUCTURED-FIELDS}}). - If present, the
params
entry's value must be either a boolean ({{Section 3.3.6 of STRUCTURED-FIELDS}}) or an inner list ({{Section 3.1.1 of STRUCTURED-FIELDS}}). - If present, the
except
entry's value must be an inner list ({{Section 3.1.1 of STRUCTURED-FIELDS}}). - The
except
entry must only be present if theparams
entry is also present, and theparams
entry's value is the boolean value true.
The dictionary may contain entries whose keys are not one of key-order
, params
, and except
, but their meaning is not defined by this specification. Implementations of this specification will ignore such entries (but future documents may assign meaning to such entries).
{:aside}
As always, the authoring conformance requirements are not binding on implementations. Implementations instead need to implement the processing model given by the obtain a URL search variance algorithm ({{obtain-a-url-search-variance}}).
A URL search variance consists of the following:
{: vspace="0"} no-vary params : either the special value wildcard or a list of strings
vary params : either the special value wildcard or a list of strings
vary on key order : a boolean
(((!default URL search variance))) The default URL search variance is a URL search variance whose no-vary params is an empty list, vary params is wildcard, and vary on key order is true.
*[default URL search variance]:
The obtain a URL search variance algorithm ({{obtain-a-url-search-variance}}) ensures that all URL search variances obey the following constraints:
- vary params is a list if and only if the no-vary params is wildcard; and
- no-vary params is a list if and only if the vary params is wildcard.
*[parse a URL search variance]: #parse-a-url-search-variance
(((!parse a URL search variance))) To parse a URL search variance given value:
- If value is null, then return the default URL search variance.
- Let result be a new URL search variance.
- Set result's vary on key order to true.
- If value["
key-order
"] exists:- If value["
key-order
"] is not a boolean, then return the default URL search variance. - Set result's vary on key order to the boolean negation of value["
key-order
"].
- If value["
- If value["
params
"] exists:- If value["
params
"] is a boolean:- If value["
params
"] is true, then:- Set result's no-vary params to wildcard.
- Set result's vary params to the empty list.
- Otherwise:
- Set result's no-vary params to the empty list.
- Set result's vary params to wildcard.
- If value["
- Otherwise, if value["
params
"] is an array:- If any item in value["
params
"] is not a string, then return the default URL search variance. - Set result's no-vary params to the result of applying parse a key ({{parse-a-key}}) to each item in value["
params
"]. - Set result's vary params to wildcard.
- If any item in value["
- Otherwise, return the default URL search variance.
- If value["
- If value["
except
"] exists:- If value["
params
"] is not true, then return the default URL search variance. - If value["
except
"] is not an array, then return the default URL search variance. - If any item in value["
except
"] is not a string, then return the default URL search variance. - Set result's vary params to the result of applying parse a key ({{parse-a-key}}) to each item in value["
except
"].
- If value["
- Return result.
{:aside}
In general, this algorithm is strict and tends to return the default URL search variance whenever it sees something it doesn't recognize. This is because the default URL search variance behavior will just cause fewer cache hits, which is an acceptable fallback behavior.
However, unrecognized keys at the top level are ignored, to make it easier to extend this specification in the future. To avoid misbehavior with existing client software, such extensions will likely expand, rather than reduce, the set of requests that a cached response can match.
{:aside}
The input to this algorithm is generally obtained by parsing a structured field ({{Section 4.2 of STRUCTURED-FIELDS}}) using field_type "dictionary".
*[obtain a URL search variance]: #obtain-a-url-search-variance
(((!obtain a URL search variance))) To obtain a URL search variance given a response response:
- Let fieldValue be the result of getting a structured field value {{FETCH}} given `
No-Vary-Search
` and "dictionary
" from response's header list. - Return the result of parsing a URL search variance ({{parse-a-url-search-variance}}) given fieldValue. (((parse a URL search variance)))
The following illustrates how various inputs are parsed, in terms of their impacting on the resulting no-vary params and vary params:
| Input | Result |
|----------------------------------------+-----------------------------------------------------------|
| No-Vary-Search: params
| no-vary params: wildcard
vary params: (empty list) |
| No-Vary-Search: params=("a")
| no-vary params: « "a
" »
vary params: wildcard |
| No-Vary-Search: params, except=("x")
| no-vary params: wildcard
vary params: « "x
" » |
The following inputs are all invalid and will cause the default URL search variance to be returned:
{:compact}
No-Vary-Search: unknown-key
No-Vary-Search: key-order="not a boolean"
No-Vary-Search: params="not a boolean or inner list"
No-Vary-Search: params=(not-a-string)
No-Vary-Search: params=("a"), except=("x")
No-Vary-Search: params=(), except=()
No-Vary-Search: params=?0, except=("x")
No-Vary-Search: params, except=(not-a-string)
No-Vary-Search: params, except="not an inner list"
No-Vary-Search: params, except=?1
No-Vary-Search: except=("x")
No-Vary-Search: except=()
The following inputs are valid, but somewhat unconventional. They are shown alongside their more conventional form.
| Input | Conventional form |
|---------------------------------------------------+---------------------------------------------------|
| No-Vary-Search: params=?1
| No-Vary-Search: params
|
| No-Vary-Search: key-order=?1
| No-Vary-Search: key-order
|
| No-Vary-Search: params, key-order, except=("x")
| No-Vary-Search: key-order, params, except=("x")
|
| No-Vary-Search: params=?0
| (omit the header) |
| No-Vary-Search: params=()
| (omit the header) |
| No-Vary-Search: key-order=?0
| (omit the header) |
*[parse a key]: #parse-a-key
(((!parse a key))) To parse a key given an ASCII string keyString:
-
Let keyBytes be the isomorphic encoding {{WHATWG-INFRA}} of keyString.
-
Replace any 0x2B (+) in keyBytes with 0x20 (SP).
-
Let keyBytesDecoded be the percent-decoding {{WHATWG-URL}} of keyBytes.
-
Let keyStringDecoded be the UTF-8 decoding without BOM {{WHATWG-ENCODING}} of keyBytesDecoded.
-
Return keyStringDecoded.
The parse a key algorithm allows encoding non-ASCII key strings in the ASCII structured header format, similar to how the application/x-www-form-urlencoded format {{WHATWG-URL}} allows encoding an entire entry list of keys and values in ASCII URL format. For example,
No-Vary-Search: params=("%C3%A9+%E6%B0%97")
will result in a URL search variance whose vary params are « "é 気
" ». As explained in a later example, the canonicalization process during equivalence testing means this will treat as equivalent URL strings such as:
https://example.com/?é 気=1
https://example.com/?é+気=2
https://example.com/?%C3%A9%20気=3
https://example.com/?%C3%A9+%E6%B0%97=4
and so on, since they all are parsed {{WHATWG-URL}} to having the same key "é 気
".
(((!equivalent modulo search variance))) Two URLs {{WHATWG-URL}} urlA and urlB are equivalent modulo search variance given a URL search variance searchVariance if the following algorithm returns true:
-
If the scheme, username, password, host, port, or path of urlA and urlB differ, then return false.
-
If searchVariance is equivalent to the default URL search variance, then:
-
If urlA's query equals urlB's query, then return true.
-
Return false.
In this case, even URL pairs that might appear the same after running the application/x-www-form-urlencoded parser {{WHATWG-URL}} on their queries, such as
https://example.com/a
andhttps://example.com/a?
, orhttps://example.com/foo?a=b&&&c
andhttps://example.com/foo?a=b&c=
, will be treated as inequivalent. -
-
Let searchParamsA and searchParamsB be empty lists.
-
If wrlA's query is not null, then set searchParamsA to the result of running the application/x-www-form-urlencoded parser {{WHATWG-URL}} given the isomorphic encoding {{WHATWG-INFRA}} of urlA's query.
-
If wrlB's query is not null, then set searchParamsB to the result of running the application/x-www-form-urlencoded parser {{WHATWG-URL}} given the isomorphic encoding {{WHATWG-INFRA}} of urlB's query.
-
If searchVariance's no-vary params is a list, then:
-
Set searchParamsA to a list containing those items pair in searchParamsA where searchVariance's no-vary params does not contain pair[0].
-
Set searchParamsB to a list containing those items pair in searchParamsB where searchVariance's no-vary params does not contain pair[0].
-
-
Otherwise, if searchVariance's vary params is a list, then:
-
Set searchParamsA to a list containing those items pair in searchParamsA where searchVariance's vary params contains pair[0].
-
Set searchParamsB to a list containing those items pair in searchParamsB where searchVariance's vary params contains pair[0].
-
-
If searchVariance's vary on key order is false, then:
-
Let keyLessThan be an algorithm taking as inputs two pairs (keyA, valueA) and (keyB, valueB), which returns whether keyA is code unit less than {{WHATWG-INFRA}} keyB.
-
Set searchParamsA to the result of sorting searchParamsA in ascending order with keyLessThan.
-
Set searchParamsB to the result of sorting searchParamsB in ascending order with keyLessThan.
-
-
If searchParamsA's size is not equal to searchParamsB's size, then return false.
-
Let i be 0.
-
While i < searchParamsA's size:
-
If searchParamsA[i][0] does not equal searchParamsB[i][0], then return false.
-
If searchParamsA[i][1] does not equal searchParamsB[i][1], then return false.
-
Set i to i + 1.
-
-
Return true.
Due to how the application/x-www-form-urlencoded parser canonicalizes query strings, there are some cases where query strings which do not appear obviously equivalent, will end up being treated as equivalent after parsing.
So, for example, given any non-default value for No-Vary-Search
, such as No-Vary-Search: key-order
, we will have the following equivalences:
{: newline="true"}
-
https://example.com
https://example.com/? - A null query is parsed the same as an empty string
-
https://example.com/?a=x
https://example.com/?%61=%78 - Parsing performs percent-decoding
-
https://example.com/?a=é
https://example.com/?a=%C3%A9 - Parsing performs percent-decoding
-
https://example.com/?a=%f6
https://example.com/?a=%ef%bf%bd - Both values are parsed as U+FFFD (�)
-
https://example.com/?a=x&&&&
https://example.com/?a=x - Parsing splits on & and discards empty strings
-
https://example.com/?a=
https://example.com/?a - Both parse as having an empty string value for a
-
https://example.com/?a=%20
https://example.com/?a=+
https://example.com/?a= & - + and %20 are both parsed as U+0020 SPACE
The main risk to be aware of is the impact of mismatched URLs. In particular, this could cause the user to see a response that was originally fetched from a URL different from the one displayed when they hovered a link, or the URL displayed in the URL bar.
However, since the impact is limited to query parameters, this does not cross the relevant security boundary, which is the origin {{HTML}}. (Or perhaps just the host, from the perspective of web browser security UI. {{WHATWG-URL}}) Indeed, we have already given origins complete control over how they present the (URL, reponse body) pair, including on the client side via technology such as history.replaceState() or service workers.
This proposal is adjacent to the highly-privacy-relevant space of navigational tracking, which often uses query parameters to pass along user identifiers. However, we believe this proposal itself does not have privacy impacts. It does not interfere with existing navigational tracking mitigations, or any known future ones being contemplated. Indeed, if a page were to encode user identifiers in its URL, the only ability this proposal gives is to reduce such user tracking by preventing server processing of such user IDs (since the server is bypassed in favor of the cache). {{NAV-TRACKING-MITIGATIONS}}
TODO IANA
--- back
{:numbered="false"}
TODO acknowledge.