1. Introduction
This section is not normative.
Signing into websites is more difficult than it should be. The user agent is in a unique position to improve the experience in a number of ways, and most modern user agents have recognized this by providing some measure of credential management natively in the browser. For example, users can save usernames and passwords for websites; those credentials are later autofilled into sign-in forms, albeit with varying degrees of success.
The autocomplete
attribute offers a declarative mechanism by which websites can work
with user agents to improve the latter’s ability to detect and fill sign-in forms by marking
specific fields as "username" or "password", and user agents implement a wide variety of detection
heuristics to work with websites which haven’t taken the time to provide this detail in markup.
While this combination of heuristic and declarative detection works relatively well, the status
quo leaves some large gaps where detection is problematic. Sites with uncommon sign-in
mechanisms (submitting credentials via XMLHttpRequest
[XMLHTTPREQUEST], for instance) are
difficult to reliably detect, as is the increasingly common case in which users wish to
authenticate themselves using a federated identity provider. Allowing websites to more directly
interact with the user agent’s credential manager would allow the credential manager to be more
accurate on the one hand, and to assist users with federated sign-in on the other.
These use cases are explored in more detail in § 1.1 Use Cases and in Credential Management: Use Cases and Requirements; this specification attempts to address many of the requirements that document outlines by defining a Credential Manager API which a website can use to request credentials for a user, and to ask the user agent to persist credentials when a user signs in successfully.
Note: The API defined here is intentionally small and simple: it does not intend to provide authentication in and of itself, but is limited to providing an interface to the existing credential managers implemented by existing user agents. That functionality is valuable right now, without significant effort on the part of either vendors or authors. There’s certainly quite a bit more which could be done, of course. See § 9 Future Work for some thoughts we’ve punted for now, but which could be explored in future iterations of this API.
1.1. Use Cases
Modern user agents generally offer users the capability to save passwords when signing into a website, and likewise offer the capability to fill those passwords into sign-in forms fully- or semi-automatically when users return to a website. From the perspective of a website, this behavior is completely invisible: the website doesn’t know that passwords have been stored, and it isn’t notified that passwords have been filled. This is both good and bad. On the one hand, a user agent’s password manager works regardless of whether or not a site cooperates, which is excellent for users. On the other, the password managers' behaviors are a fragile and proprietary hodgepodge of heuristics meant to detect and fill sign-in forms, password change forms, etc.
A few problems with the status quo stand out as being particularly noteworthy:
-
User agents have an incredibly difficult time helping users with federated identity providers. While detecting a username/password form submission is fairly straightforward, detecting sign-in via a third-party is quite difficult to reliably do well. It would be nice if a website could help the user agent understand the intent behind the redirects associated with a typical federated sign-in action.
-
Likewise, user agents struggle to detect more esoteric sign-in mechanisms than simple username/password forms. Authors increasingly asynchronously sign users in via
XMLHttpRequest
or similar mechanisms in order to improve the experience and take more control over the presentation. This is good for users, but tough for user agents to integrate into their password managers. It would be nice if a website could help the user agent make sense of the sign-in mechanism they choose to use. -
Finally, changing passwords is less well-supported than it could be if the website explicitly informed the user agent that credentials had changed.
2. Core API
From a developer’s perspective, a credential is an
object which allows a developer to make an authentication decision for a particular action. This
section defines a generic and extensible Credential
interface which serves as a base class
for credentials defined in this and other documents, along with a set of APIs
hanging off of navigator.credentials.*
which enable developers to
obtain them.
Various credential types are each represented to JavaScript as an interface which inherits, either directly or indirectly, from the Credential
interface. This
document defines two such interfaces, PasswordCredential
and FederatedCredential
. Other
specifications, for example [WEBAUTHN], define other credential types.
A credential is effective for a particular origin if it is accepted as authentication on that origin. Even if a credential is effective at a particular point in time, the UA can’t assume that the same credential will be effective at any future time, for a couple reasons:
-
A password credential may stop being effective if the account holder changes their password.
-
A credential made from a token received over SMS is likely to only be effective for a single use.
Single-use credentials are generated by a credential source, which could be a private key, access to a federated account, the ability to receive SMS messages at a particular phone number, or something else. Credential sources are not exposed to Javascript or explicitly represented in this specification. To unify the model, we consider a password to be a credential source on its own, which is simply copied to create password credentials.
Even though the UA can’t assume that an effective credential will still be effective if used a
second time, or that a credential source that has generated an effective credential will be able
to generate a second effective credential in the future, the second is more likely than the first.
By recording (with store()
) which credentials have been effective in the
past, the UA has a better chance of offering effective credential
sources to the user in the future.
2.1. Infrastructure
User agents MUST internally provide a credential store, which is a vendor-specific, opaque storage mechanism to record which credentials have been effective. It offers the following capabilities for credential access and persistence:
-
Store a credential for later retrieval. This accepts a credential, and inserts it into the credential store.
-
Retrieve a list of credentials. This accepts an arbitrary filter, and returns a set of credentials that match the filter.
-
Modify a credential. This accepts a credential, and overwrites the state of an existing credential in the credential store.
Additionally, the credential store should maintain a prevent silent access
flag for origins (which is set to true
unless otherwise specified).
An origin requires user mediation if its flag is set to true
.
Note: The importance of user mediation is discussed in more detail in § 5 User Mediation.
Note: The credential store is an internal implementation detail of a user agent’s implementation of the API specified in this document, and is not exposed to the web directly. More capabilities may be specified by other documents in support of specific credential types.
This document depends on the Infra Standard for a number of foundational concepts used in its algorithms and prose [INFRA].
Each environment settings object has an associated active credential types, a set which is initially empty.
2.1.1. Infrastructure Algorithms
2.1.1.1. Same-Origin with its Ancestors
An environment settings object (settings) is same-origin with its
ancestors if the following algorithm returns true
:
-
If settings’s relevant global object has no associated Document, return
false
. -
Let document be settings’ relevant global object's associated Document.
-
If document has no browsing context, return
false
. -
Let origin be settings’ origin.
-
Let navigable be document’s node navigable.
-
While navigable has a non-null parent:
-
Set navigable to navigable’s parent.
-
If navigable’s active document's origin is not same origin with origin, return
false
.
-
-
Return
true
.
2.1.2. Credential Type Registry
This registry maps credential types (i.e., [[type]]
values) to various values associated with a given credential type. For example: the Options Member Identifier (formally, a dictionary member identifier) used in CredentialCreationOptions
and CredentialRequestOptions
(i.e., "options dictionaries")
by their specifications.
Note: This registry is used by the relevant credential interface objects algorithm.
Credential Type (in alphabetical order) | Options Member Identifier | Appropriate Interface Object | Get Permissions Policy | Create Permissions Policy | Specification | Requestor Contact |
---|---|---|---|---|---|---|
digital-credential | digital | DigitalCredential
| digital-credentials-get | null | [DIGITAL-CREDENTIALS] | WICG |
federated | federated | FederatedCredential
| null | null | This specification: § 4 Federated Credentials | W3C |
identity | identity | IdentityCredential
| identity-credentials-get | null | [FEDCM] | W3C |
otp | otp | OTPCredential
| otp-credentials | null | [WEB-OTP] | WICG |
password | password | PasswordCredential
| null | null | This specification: § 3 Password Credentials | W3C |
public-key | publicKey | PublicKeyCredential
| publickey-credentials-get | publickey-credentials-create | [WEBAUTHN] | W3C |
2.1.2.1. Registration Entry Requirements and Update Process
-
Each credential type must be unique amongst the set of credential types.
-
Each registry entry must state the dictionary member identifier (known as the Options Member Identifier in the registry) used in the credential specification’s extentions of
CredentialCreationOptions
andCredentialRequestOptions
. -
Each registry entry must state the Appropriate Interface Object identifier for the credential type.
-
Each registry entry must state the Get Permissions Policy permission used when executing Request a
Credential
for a credential type, or null if no permissions policy is specified. -
Each registry entry must state the Create Permissions Policy permission used when executing Create a
Credential
for a credential type, or null if no permissions policy is specified. -
Each registry entry must include a link that references a publicly available specification defining the credential type and the dictionary member identifier.
-
Each registry entry’s specification must include the requestor’s contact information.
An update to this registry is an addition, change or deletion of a credential type's registry entry. Any person can request an update to this registry by pull requests to the webappsec-credential-management repository. The Web Applications Security Working Group will place it on an upcoming meeting agenda and notify the requestor. Consideration and disposition of the request is by consensus of the W3C Web Applications Security Working Group. The Chair will then notify the requestor of the outcome and update the registry accordingly.
2.2. The Credential
Interface
[Exposed =Window ,SecureContext ]interface {
Credential readonly attribute USVString id ;readonly attribute DOMString type ;static Promise <boolean >isConditionalMediationAvailable ();static Promise <undefined >willRequestConditionalCreation (); };
id
, of type USVString, readonly-
The credential’s identifier. The requirements for the identifier are distinct for each type of credential. It might represent a username for username/password tuples, for example.
type
, of type DOMString, readonly-
This attribute’s getter returns the value of the object’s interface object's
[[type]]
slot, which specifies the credential type represented by this object. isConditionalMediationAvailable()
-
Returns a new
Promise
that resolves withtrue
if and only if the user agent supports theconditional
approach to mediation of credential requests for the credential type,false
otherwise.Credential
's default implementation ofisConditionalMediationAvailable()
:The specification for any credential type supporting
conditional
mediation must explicitly override this function to resolve totrue
.Note: If this function is not present,
conditional
mediation is not supported for the credential type. willRequestConditionalCreation()
-
Returns a new
Promise
that resolves after the user agent registers the relying party’s intention to create a credential using theconditional
approach to mediation of credential creation for the credential type.Credential
's default implementation ofwillRequestConditionalCreation()
:Note: If this method is not present,
conditional
mediation for credential creation is not supported for the credential type. [[type]]
-
The
Credential
interface object has an internal slot named[[type]]
, which unsurprisingly contains a string representing the credential type. The slot’s value is the empty string unless otherwise specified. See § 2.1.2 Credential Type Registry for a list of credential types.Note: The
[[type]]
slot’s value will be the same for all credentials implementing a particular interface, which means that developers can rely onobj.type
returning a string that unambiguously represents the specific kind ofCredential
they’re dealing with. [[discovery]]
-
The
Credential
interface object has an internal slot named[[discovery]]
, representing the mechanism by which the user agent can collect credentials of a given type. Its value is either "credential store
" or "remote
". The former value means that all available credential information is stored in the user agent’s credential store, while the latter means that the user agent can discover credentials outside of those explicitly represented in the credential store via interaction with some external device or service.
Talk to Tobie/Dominic about the interface object bits, here and in § 2.5.1 Request a Credential, etc. I’m not sure I’ve gotten the terminology right. interface prototype object, maybe?
Some Credential
objects are origin bound: these contain an
internal slot named [[origin]]
, which stores the origin for which the Credential
may be effective.
2.2.1. Credential
Internal Methods
The Credential
interface object features several internal methods facilitating
retrieval and storage of Credential
objects, with default "no-op" implementations
as specified in this section, below.
Unless otherwise specified, each interface object created for interfaces which inherit from Credential
MUST provide implementations for at least one of these internal methods, overriding Credential
's default implementations, as appropriate for the credential type. E.g., § 3.2 The PasswordCredential Interface, § 4.1 The FederatedCredential Interface, and [WEBAUTHN].
2.2.1.1. [[CollectFromCredentialStore]]
internal method
[[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
is called with an origin, a CredentialRequestOptions
, and a boolean which
is true if and only if the caller’s environment settings object is same-origin with its ancestors.
The algorithm returns a set of Credential
objects from the user agent’s credential store that
match the options provided. If no matching Credential
objects are available, the
returned set will be empty.
Credential
's default implementation of [[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
:
-
Return an empty set.
2.2.1.2. [[DiscoverFromExternalSource]]
internal method
[[DiscoverFromExternalSource]](origin, options, sameOriginWithAncestors)
is called in parallel with an origin, a CredentialRequestOptions
object,
and a boolean which is true if and only if the caller’s environment settings object is same-origin with its ancestors.
It returns a Credential
if one can be
returned given the options provided, null
if no credential is available, or throws an
error if discovery fails (for example, incorrect options could produce a TypeError
).
If this kind of Credential
is only effective for a single use or a limited time,
this method is responsible for generating new credentials using a credential source.
Credential
's default implementation of [[DiscoverFromExternalSource]](origin, options, sameOriginWithAncestors)
:
-
Return
null
.
2.2.1.3. [[Store]]
internal method
[[Store]](credential, sameOriginWithAncestors)
is called in parallel with a Credential
, and a boolean which is true if and only if the caller’s environment settings object is same-origin with its ancestors.
The algorithm returns once Credential
is persisted to the credential store.
Credential
's default implementation of [[Store]](credential, sameOriginWithAncestors)
:
-
Throw a
NotSupportedError
.
2.2.1.4. [[Create]]
internal method
[[Create]](origin, options, sameOriginWithAncestors)
is called in parallel with an origin, a CredentialCreationOptions
,
and a boolean which is true if and only if the caller’s environment settings object is same-origin with its ancestors.
The algorithm either:
-
creates a
Credential
, or -
does not create a credential and returns
null
, or -
throws an error if creation fails due to exceptional situations (for example, incorrect options could produce a
TypeError
).
When creating a Credential
, it will return an algorithm that takes a global object and returns an interface object inheriting from Credential
. This algorithm MUST be invoked from a task.
Note: This algorithm’s steps are defined on a per-credential type basis.
Credential
's default implementation of [[Create]](origin, options, sameOriginWithAncestors)
:
-
Return
null
.
2.2.2. CredentialUserData
Mixin
Some Credential
objects contain data which aims to give users a human-readable disambiguation
mechanism in the credential chooser by providing a friendly name and icon:
[SecureContext ]interface mixin {
CredentialUserData readonly attribute USVString name ;readonly attribute USVString iconURL ; };
name
, of type USVString, readonly-
A name associated with the credential, intended as a human-understandable public name for display in a credential chooser.
iconURL
, of type USVString, readonly-
A URL pointing to an image for the credential, intended for display in a credential chooser. This URL MUST be an potentially trustworthy URL.
2.3. navigator.credentials
Developers retrieve Credential
s and interact with the user agent’s credential store via
methods exposed on the CredentialsContainer
interface, which hangs off the Navigator
object as navigator.credentials
.
partial interface Navigator { [SecureContext ,SameObject ]readonly attribute CredentialsContainer credentials ; };
The credentials
attribute MUST return the CredentialsContainer
associated with the active document's browsing context.
Note: As discussed in § 6.3 Insecure Sites, the credential management API is exposed only in Secure Contexts.
[Exposed =Window ,SecureContext ]interface {
CredentialsContainer Promise <Credential ?>get (optional CredentialRequestOptions options = {});Promise <undefined >store (Credential credential );Promise <Credential ?>create (optional CredentialCreationOptions options = {});Promise <undefined >preventSilentAccess (); };dictionary {
CredentialData required USVString ; };
id
get(options)
-
When
get()
is called, the user agent MUST return the result of executing Request aCredential
onoptions
.Arguments for the CredentialsContainer.get(options) method. Parameter Type Nullable Optional Description options
CredentialRequestOptions
✘ ✔ The set of properties governing the scope of the request. store(credential)
-
When
store()
is called, the user agent MUST return the result of executing Store aCredential
oncredential
.Arguments for the CredentialsContainer.store(credential) method. Parameter Type Nullable Optional Description credential
Credential
✘ ✘ The credential to be stored. create(options)
-
When
create()
is called, the user agent MUST return the result of executing Create aCredential
onoptions
.Arguments for the CredentialsContainer.create(options) method. Parameter Type Nullable Optional Description options
CredentialCreationOptions
✘ ✔ The options used to create a Credential
. preventSilentAccess()
-
When
preventSilentAccess()
is called, the user agent MUST return the result of executing Prevent Silent Access on the current settings object.Note: The intent here is a signal from the origin that the user has signed out. That is, after a click on a "Sign out" button, the site updates the user’s session info, and calls
navigator.credentials.preventSilentAccess()
. This sets the prevent silent access flag, meaning that credentials will not be automagically handed back to the page next time the user visits.Note: This function was previously called
requireUserMediation()
which should be considered deprecated.
Navigator
object (navigator) is created, the user agent MUST create a
new CredentialsContainer
object, using navigator’s relevant Realm, and associate it
with navigator. 2.3.1. The CredentialRequestOptions
Dictionary
In order to retrieve a Credential
via get()
, the caller specifies a
few parameters in a CredentialRequestOptions
object.
Note: The CredentialRequestOptions
dictionary is an extension point. If and when new types of
credentials are introduced that require options, their dictionary types will be added to the
dictionary so they can be passed into the request. See § 8.2 Extension Points.
dictionary {
CredentialRequestOptions CredentialMediationRequirement mediation = "optional";AbortSignal signal ; };
mediation
, of type CredentialMediationRequirement, defaulting to"optional"
-
This property specifies the mediation requirements for a given credential request. The meaning of each enum value is described below in
CredentialMediationRequirement
. Processing details are defined in § 2.5.1 Request a Credential. signal
, of type AbortSignal-
This property lets the developer abort an ongoing
get()
operation. An aborted operation may complete normally (generally if the abort was received after the operation finished) or reject with an abort reason.
unmediated
member. Setting that
to true
had the effect of setting mediation
to
"silent
", and setting it to false
had the effect of
setting mediation
to "optional
".
unmediated
should be considered deprecated; new code should instead rely on mediation
.
CredentialCreationOptions
or CredentialRequestOptions
(options) is a set of interface objects, collected as follows:
Note: This algorithm uses the Credential Type Registry.
-
Let settings be the current settings object.
-
For each optionKey → optionValue of options:
-
Let credentialInterfaceObject be the Appropriate Interface Object (on settings’ global object) whose Options Member Identifier is optionKey.
-
Assert: credentialInterfaceObject’s
[[type]]
slot equals the Credential Type whose Options Member Identifier is optionKey. -
Append credentialInterfaceObject to relevant interface objects.
-
-
Return relevant interface objects.
CredentialRequestOptions
(options) is matchable a priori if the following
steps return true
:
-
For each interface in options’ relevant credential interface objects:
-
If interface’s
[[discovery]]
slot’s value is not "credential store
", returnfalse
.
-
-
Return
true
.
Note: When executing get(options)
, we only return credentials without user mediation if
the provided CredentialRequestOptions
is matchable a priori. If any
credential types are requested that could require discovery from some external service (OAuth
tokens, security key authenticators, etc.), then user mediation will be required in order
to guide the discovery process (by choosing a federated identity provider, BTLE device, etc).
2.3.2. Mediation Requirements
When making a request via get(options)
or create(options)
, developers can set a case-by-case requirement for user mediation by choosing the appropriate CredentialMediationRequirement
enum value.
Note: The § 5 User Mediation section gives more detail on the concept in general, and its implications on how the user agent deals with individual requests for a given origin).
enum {
CredentialMediationRequirement "silent" ,"optional" ,"conditional" ,"required" };
silent
-
User mediation is suppressed for the given operation. If the operation can be performed without user involvement, wonderful. If user involvement is necessary, then the operation will return
null
rather than involving the user.Note: The intended usage is to support "Keep me signed-into this site" scenarios, where a developer may wish to silently obtain credentials if a user should be automatically signed in, but to delay bothering the user with a sign-in prompt until they actively choose to sign-in.
optional
-
If credentials can be handed over for a given operation without user mediation, they will be. If user mediation is required, then the user agent will involve the user in the decision.
Note: This is the default behavior for
get()
, and is intended to serve a case where a developer has reasonable confidence that a user expects to start a sign-in operation. If a user has just clicked "sign-in" for example, then they won’t be surprised or confused to see a credential chooser if necessary. conditional
-
For
get()
, discovered credentials are presented to the user in a non-modal dialog along with an indication of the origin which is requesting credentials. If the user makes a gesture outside of the dialog, the dialog closes without resolving or rejecting thePromise
returned by theget()
method and without causing a user-visible error condition. If the user makes a gesture that selects a credential, that credential is returned to the caller. The prevent silent access flag is treated as beingtrue
regardless of its actual value: theconditional
behavior always involves user mediation of some sort if applicable credentials are discovered.If no credentials are discovered, the user agent MAY prompt the user to take action in a way that depends on the type of credential (e.g. to insert a device containing credentials). Either way, the
get()
method MUST NOT resolve immediately withnull
to avoid revealing the lack of applicable credentials to the website.Websites can only pass
conditional
into theget()
method if all of the credential interfaces it refers to have overriddenisConditionalMediationAvailable()
to return a newPromise
that resolves withtrue
.For
create()
, if a user has previously consented to credential creation and the user agent knows it recently mediated an authentication, then thecreate()
call may resolve without additional prominent modal interaction. If the user agent did not recently mediate an authentication or does not have consent for credential creation, then the call must throw a "NotAllowedError
"DOMException
. required
-
The user agent will not hand over credentials without user mediation, even if the prevent silent access flag is unset for an origin.
Note: This requirement is intended to support reauthentication or user-switching scenarios. Further, the requirement is tied to a specific operation, and does not affect the prevent silent access flag for the origin. To set that flag, developers should call
preventSilentAccess()
.
2.3.2.1. Examples
get()
for all non-signed in users at some convinient point while a landing page is loading,
passing in a mediation
member set to
"silent
". This ensures that users who have opted-into
dropping the requirements for user mediation (as described in § 5.2 Requiring User Mediation)
are signed in, and users who haven’t opted-into such behavior won’t be bothered with a confusing credential chooser popping up without context:
window.addEventListener('load', async () => { const credentials = await navigator.credentials.get({ ..., mediation: 'silent' }); if (credentials) { // Hooray! Let’s sign the user in using these credentials! } });
document.querySelector('#sign-in').addEventListener('click', async () => { const credentials = await navigator.credentials.get({ ..., mediation: 'optional' }); if (credentials) { // Hooray! Let’s sign the user in using these credentials! } });
Note: MegaCorp, Inc. could also have left off the mediation
member entirely, as "optional
" is its default.
get()
with a mediation
member set to
"required
":
Note: Depending on the security model of the browser or the credential type, this may require the user to authenticate themselves in some way, perhaps by entering a master password, scanning a fingerprint, etc. before a credential is handed to the website.
document.querySelector('#important-form').addEventListener('submit', async () => { const credentials = await navigator.credentials.get({ ..., mediation: 'required' }); if (credentials) { // Verify that |credentials| enables access, and cancel the submission // if it doesn’t. } else { e.preventDefault(); } });
get()
with a mediation
member set to
"required
" in order to ensure that that credentials aren’t
returned automatically in response to clicking on an "Add account" button:
document.querySelector('#switch-button').addEventListener('click', e => { var c = await navigator.credentials.get({ ..., mediation: 'required' }); if (c) { // Sign the user in using |c|. } });
2.4. The CredentialCreationOptions
Dictionary
In order to create a Credential
via create()
, the caller specifies a
few parameters in a CredentialCreationOptions
object.
Note: The CredentialCreationOptions
dictionary is an extension point. If and when new types of
credentials are introduced, they will add to the dictionary so they can be passed into the
creation method. See § 8.2 Extension Points, and the extensions introduced in this document: § 3.2 The PasswordCredential Interface and § 4.1 The FederatedCredential Interface.
dictionary {
CredentialCreationOptions CredentialMediationRequirement = "optional";
mediation AbortSignal signal ; };
signal
, of type AbortSignal-
This property lets the developer abort an ongoing
create()
operation. An aborted operation may complete normally (generally if the abort was received after the operation finished) or reject with an abort reason.
2.5. Algorithms
2.5.1. Request a Credential
The Request a Credential
algorithm accepts a CredentialRequestOptions
(options), and returns a Promise
that resolves with a Credential
if one can be
unambigiously obtained, or with null
if not.
-
Let settings be the current settings object.
-
Assert: settings is a secure context.
-
Let document be settings’s relevant global object's associated Document.
-
If document is not fully active, then return a promise rejected with an "
InvalidStateError
"DOMException
. -
If
options.
is aborted, then return a promise rejected withsignal
options.
’s abort reason.signal
-
Let interfaces be options’s relevant credential interface objects.
-
If interfaces is empty, then returna promise rejected with a "
NotSupportedError
"DOMException
. -
For each interface of interfaces:
-
If options.
mediation
isconditional
and interface does not supportconditional
user mediation, return a promise rejected with a "TypeError
"DOMException
. -
If settings’ active credential types contains interface’s
[[type]]
, return a promise rejected with a "NotAllowedError
"DOMException
. -
Append interface’s
[[type]]
to settings’ active credential types.
-
-
Let origin be settings’ origin.
-
Let sameOriginWithAncestors be
true
if settings is same-origin with its ancestors, andfalse
otherwise. -
For each interface in options’ relevant credential interface objects:
-
Let permission be the interface’s
[[type]]
Get Permissions Policy. -
If permission is null, continue.
-
If document is not allowed to use permission, return a promise rejected with a "
NotAllowedError
"DOMException
.
-
-
Let p be a new promise.
-
Run the following steps in parallel:
-
Let credentials be the result of collecting
Credential
s from the credential store, given origin, options, and sameOriginWithAncestors. -
If all of the following statements are true, resolve p with credentials[0] and skip the remaining steps:
-
credentials’ size is 1
-
origin does not require user mediation
-
options is matchable a priori.
-
options.
mediation
is not "conditional
".
This might be the wrong model. It would be nice to support a site that wished to accept either username/passwords or webauthn-style credentials without forcing a chooser for those users who use the former, and who wish to remain signed in.
-
-
If options’
mediation
is "silent
", resolve p withnull
, and skip the remaining steps. -
Let result be the result of asking the user to choose a
Credential
, given options and credentials. -
If result is an interface object:
-
Set result to the result of executing result’s
[[DiscoverFromExternalSource]](origin, options, sameOriginWithAncestors)
, given origin, options, and sameOriginWithAncestors.If that threw an exception:
-
Let e be the thrown exception.
-
Queue a task on global’s DOM manipulation task source to run the following substeps:
-
Reject p with e.
-
-
Terminate these substeps.
-
-
-
Assert: result is
null
, or aCredential
. -
If result is a
Credential
, resolve p with result. -
If result is
null
and options.mediation
is notconditional
, resolve p with result.Note: if options.
mediation
isconditional
and anull
credential is discovered, promise p is not resolved.
-
-
React to p:
-
For each interface in interfaces:
-
Remove interface’s
[[type]]
from settings’ active credential types.
-
-
-
Return p.
2.5.2. Collect Credential
s from the credential store
Given an origin (origin),
a CredentialRequestOptions
(options), and a boolean which is true
if and only if the calling
context is same-origin with its ancestors (sameOriginWithAncestors), the user agent may collect Credential
s from the credential store,
returning a set of Credential
objects stored by the user agent locally that match options’
filter. If no such Credential
objects are known, the returned set will be empty:
-
Let possible matches be an empty set.
-
For each interface in options’ relevant credential interface objects:
-
Let r be the result of executing interface’s
[[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
internal method on origin, options, and sameOriginWithAncestors. If that threw an exception, rethrow that exception. -
Assert: r is a list of interface objects.
-
For each c in r:
-
Append c to possible matches.
-
-
-
Return possible matches.
2.5.3. Store a Credential
The Store a Credential
algorithm accepts a Credential
(credential), and returns a Promise
which resolves once the object is persisted to the credential store.
-
Let settings be the current settings object.
-
Assert: settings is a secure context.
-
If settings’s relevant global object's associated Document is not fully active, then return a promise rejected with an "
InvalidStateError
"DOMException
. -
Let sameOriginWithAncestors be
true
if the current settings object is same-origin with its ancestors, andfalse
otherwise. -
Let p be a new promise.
-
If settings’ active credential types contains credential’s
[[type]]
, return a promise rejected with a "NotAllowedError
"DOMException
. -
Append credential’s
[[type]]
to settings’ active credential types. -
Run the following steps in parallel:
-
Execute credential’s interface object's
[[Store]](credential, sameOriginWithAncestors)
internal method on credential and sameOriginWithAncestors.If that threw an exception:
-
Let e be the thrown exception.
-
Queue a task on global’s DOM manipulation task source to run the following substeps:
-
Reject p with e.
-
Otherwise, resolve p with
undefined
. -
-
-
React to p:
-
Remove credential’s
[[type]]
from settings’ active credential types.
-
-
Return p.
2.5.4. Create a Credential
The Create a Credential
algorithm accepts a CredentialCreationOptions
(options), and returns a Promise
which resolves with a Credential
if one can be created
using the options provided, or null
if no Credential
can be created. In exceptional
circumstances, the Promise
may reject with an appropriate exception:
-
Let settings be the current settings object.
-
Assert: settings is a secure context.
-
Let global be settings’ global object.
-
Let document be the relevant global object's associated Document.
-
If document is not fully active, then return a promise rejected with an "
InvalidStateError
"DOMException
. -
Let sameOriginWithAncestors be
true
if the current settings object is same-origin with its ancestors, andfalse
otherwise. -
Let interfaces be the set of options’ relevant credential interface objects.
-
Return a promise rejected with
NotSupportedError
if any of the following statements are true:-
global does not have an associated Document.
-
interfaces’ size is greater than 1.
Note: It may be reasonable at some point in the future to loosen this restriction, and allow the user agent to help the user choose among one of many potential credential types in order to support a "sign-up" use case. For the moment, though, we’re punting on that by restricting the dictionary to a single entry.
-
-
For each interface in interfaces:
-
Let permission be the interface’s
[[type]]
Create Permissions Policy. -
If permission is null, continue.
-
If document is not allowed to use permission, return a promise rejected with a "
NotAllowedError
"DOMException
.
-
-
If
options.
is aborted, then return a promise rejected withsignal
options.
’s abort reason.signal
-
Let p be a new promise.
-
Let type be interfaces[0]'s
[[type]]
. -
If settings’ active credential types contains type, return a promise rejected with a "
NotAllowedError
"DOMException
. -
Append type to settings’ active credential types.
-
Let origin be settings’s origin.
-
Run the following steps in parallel:
-
Let r be the result of executing interfaces[0]'s
[[Create]](origin, options, sameOriginWithAncestors)
internal method on origin, options, and sameOriginWithAncestors.If that threw an exception:
-
Let e be the thrown exception.
-
Queue a task on global’s DOM manipulation task source to run the following substeps:
-
Reject p with e.
-
-
Terminate these substeps.
-
-
If r is a
Credential
ornull
, resolve p with r, and terminate these substeps. -
Assert: r is an algorithm (as defined in § 2.2.1.4 [[Create]] internal method).
-
Queue a task on global’s DOM manipulation task source to run the following substeps:
-
Resolve p with the result of promise-calling r given global.
-
-
-
React to p:
-
Remove type from settings’ active credential types.
-
-
Return p.
2.5.5. Prevent Silent Access
The Prevent Silent Access algorithm accepts an environment settings
object (settings), and returns a Promise
which resolves once the prevent silent access
flag is persisted to the credential store.
-
Let origin be settings’ origin.
-
If settings’s relevant global object's associated Document is not fully active, then return a promise rejected with an "
InvalidStateError
"DOMException
. -
Let p be a new promise
-
Run the following seps in parallel:
-
Set origin’s prevent silent access flag in the credential store.
-
Resolve p with
undefined
.
-
-
Return p.
3. Password Credentials
For good or for ill, many websites rely on username/password pairs as an authentication mechanism.
The PasswordCredential
interface is a credential meant to enable this use case, storing
both a username and password, as well as metadata that can help a user choose the right account
from within a credential chooser.
3.1. Examples
3.1.1. Password-based Sign-in
navigator.credentials.get()
to obtain
username/password pairs from a user’s credential store:
navigator.credentials .get({ 'password': true }) .then(credential => { if (!credential) { // The user either doesn’t have credentials for this site, or // refused to share them. Insert some code here to fall back to // a basic login form. return; } if (credential.type == 'password') { var form = new FormData(); form.append('username_field', credential.id); form.append('password_field', credential.password); var opt = { method: 'POST', body: form, credentials: 'include' // Send cookies. }; fetch('https://example.com/loginEndpoint', opt) .then(function (response) { if (/* |response| indicates a successful login */) { // Record that the credential was effective. See note below. navigator.credentials.store(credential); // Notify the user that sign-in succeeded! Do amazing, signed-in things! // Maybe navigate to a landing page via location.href = // '/signed-in-experience'? } else { // Insert some code here to fall back to a basic login form. } }); } });
Alternatively, the website could just copy the credential data into a form
and call submit()
on the form:
navigator.credentials .get({ 'password': true }) .then(credential => { if (!credential) { return; // as above... } if (credential.type === 'password') { document.querySelector('input[name=username_field]').value = credential.id; document.querySelector('input[name=password_field]').value = credential.password; document.getElementById('myform').submit(); } });
Note that the former method is much preferred, as it contains an explicit call
to store()
and saves the credentials. The form
based mechanism
relies on form submission, which navigates the browsing context, making it difficult to
ensure that store()
is called after successful sign-in.
Note: The credential chooser presented by the user agent could allow the user to choose
credentials that aren’t actually stored for the current origin. For instance, it might offer up
credentials from https://m.example.com
when signing into https://www.example.com
(as
described in § 6.1 Cross-domain credential access), or it might allow a user to create a new
credential on the fly. Developers can deal gracefully with this uncertainty by calling store()
every time credentials are successfully used, even right after
credentials have been retrieved from get()
: if the credentials aren’t
yet stored for the origin, the user will be given the opportunity to do so. If they are stored,
the user won’t be prompted.
3.1.2. Post-sign-in Confirmation
To ensure that users are offered to store new credentials after a successful sign-in, they can
to be passed to store()
.
fetch()
, we can check the response to determine whether the user
was signed in successfully, and notify the user agent accordingly. Given a sign-in form like the
following:
<form action="https://example.com/login" method="POST" id="theForm"> <label for="username">Username</label> <input type="text" id="username" name="username" autocomplete="username"> <label for="password">Password</label> <input type="password" id="password" name="password" autocomplete="current-password"> <input type="submit"> </form>
Then the developer can handle the form submission with something like the following handler:
document.querySelector('#theForm').addEventListener('submit', e => { if (window.PasswordCredential) { e.preventDefault(); // Construct a new PasswordCredential from the HTMLFormElement // that fired the "submit" event: this will suck up the values of the fields // labeled with "username" and "current-password" autocomplete // attributes: var c = new PasswordCredential(e.target); // Fetch the form’s action URL, passing that new credential object in // as a FormData object. If the response indicates success, tell the user agent // so it can ask the user to store the password for future use: var opt = { method: 'POST', body: new FormData(e.target), credentials: 'include' // Send cookies. }; fetch(e.target.action, opt).then(r => { if (/* |r| is a "successful" Response */) navigator.credentials.store(c); }); } });
3.1.3. Change Password
This same storage mechanism can be reused for "password change" with no modifications: if the user changes their credentials, the website can notify the user agent that they’ve successfully signed in with new credentials. The user agent can then update the credentials it stores:
store()
with the new information.
Given a password change form like the following:
<form action="https://example.com/changePassword" method="POST" id="theForm"> <input type="hidden" name="username" autocomplete="username" value="user"> <label for="password">New Password</label> <input type="password" id="password" name="password" autocomplete="new-password"> <input type="submit"> </form>
The developer can handle the form submission with something like the following:
document.querySelector('#theForm').addEventListener('submit', e => { if (window.PasswordCredential) { e.preventDefault(); // Construct a new PasswordCredential from the HTMLFormElement // that fired the "submit" event: this will suck up the values of the fields // labeled with "username" and "new-password" autocomplete // attributes: var c = new PasswordCredential(e.target); // Fetch the form’s action URL, passing that new credential object in // as a FormData object. If the response indicates success, tell the user agent // so it can ask the user to store the password for future use: var opt = { method: 'POST', body: new FormData(e.target), credentials: 'include' // Send cookies. }; fetch(e.target.action, opt).then(r => { if (/* |r| is a "successful" Response */) navigator.credentials.store(c); }); } });
3.2. The PasswordCredential
Interface
[Exposed =Window ,SecureContext ]interface :
PasswordCredential Credential {constructor (HTMLFormElement );
form constructor (PasswordCredentialData );
data readonly attribute USVString password ; };PasswordCredential includes CredentialUserData ;partial dictionary CredentialRequestOptions {boolean =
password false ; };
password
, of type USVString, readonly-
This attribute represents the password of the credential.
[[type]]
-
The
PasswordCredential
interface object has an internal slot named[[type]]
whose value is "password
". [[discovery]]
-
The
PasswordCredential
interface object has an internal slot named[[discovery]]
whose value is "credential store
". PasswordCredential(form)
-
This constructor accepts an
HTMLFormElement
(form), and runs the following steps:-
Let origin be the current settings object's origin.
-
Let r be the result of executing Create a
PasswordCredential
from anHTMLFormElement
given form and origin. -
If r is an exception, throw r.
Otherwise, return r.
-
PasswordCredential(data)
-
This constructor accepts a
PasswordCredentialData
(data), and runs the following steps:-
Let r be the result of executing Create a
PasswordCredential
fromPasswordCredentialData
on data. -
If r is an exception, throw r.
Otherwise, return r.
-
PasswordCredential
objects can be created via navigator.credentials.create()
either explicitly by passing in a PasswordCredentialData
dictionary, or based on the contents
of an HTMLFormElement
's submittable elements.
dictionary :
PasswordCredentialData CredentialData {USVString ;
name USVString ;
iconURL required USVString ;
origin required USVString ; };
password typedef (PasswordCredentialData or HTMLFormElement );
PasswordCredentialInit partial dictionary CredentialCreationOptions {PasswordCredentialInit ; };
password
PasswordCredential
objects are origin bound.
PasswordCredential
's interface object inherits Credential
's implementation of [[DiscoverFromExternalSource]](origin, options, sameOriginWithAncestors)
, and defines
its own implementation of [[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
, [[Create]](origin, options, sameOriginWithAncestors)
, and [[Store]](credential, sameOriginWithAncestors)
.
3.3. Algorithms
3.3.1. PasswordCredential
’s [[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
[[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
is called with an origin (origin), a CredentialRequestOptions
(options),
and a boolean which is true
if and only if the calling context is same-origin with its ancestors (sameOriginWithAncestors).
The algorithm returns a set of Credential
objects from
the credential store. If no matching Credential
objects are available, the returned set
will be empty.
The algorithm will throw a NotAllowedError
if sameOriginWithAncestors is not true
.
-
If sameOriginWithAncestors is
false
, throw a "NotAllowedError
"DOMException
.Note: This restriction aims to address the concern raised in § 6.4 Origin Confusion.
-
Return the empty set if options["
password
"] is nottrue
. -
Return the result of retrieving credentials from the credential store that match the following filter:
-
The credential is a
PasswordCredential
-
The credential’s
[[origin]]
is the same origin as origin.
-
3.3.2. PasswordCredential
’s [[Create]](origin, options, sameOriginWithAncestors)
[[Create]](origin, options, sameOriginWithAncestors)
is called with an origin (origin), a CredentialCreationOptions
(options), and a boolean which is true
if and only if the calling
context is same-origin with its ancestors (sameOriginWithAncestors).
The algorithm returns a PasswordCredential
if one can be created, null
otherwise. The CredentialCreationOptions
dictionary must have a password
member which
holds either an HTMLFormElement
or a PasswordCredentialData
. If that member’s value cannot be
used to create a PasswordCredential
, this algorithm will throw a TypeError
exception.
-
Assert: options["
password
"] exists, and sameOriginWithAncestors is unused. -
If options["
password
"] is anHTMLFormElement
, return the result of executing Create aPasswordCredential
from anHTMLFormElement
given options["password
"] and origin. Rethrow any exceptions. -
If options["
password
"] is aPasswordCredentialData
, return the result of executing Create aPasswordCredential
fromPasswordCredentialData
given options["password
"]. Rethrow any exceptions.
3.3.3. PasswordCredential
’s [[Store]](credential, sameOriginWithAncestors)
[[Store]](credential, sameOriginWithAncestors)
is
called with a PasswordCredential
(credential), and a boolean which is true
if and only if the calling
context is same-origin with its ancestors (sameOriginWithAncestors). The algorithm returns undefined
once credential is persisted to the credential store.
The algorithm will return a NotAllowedError
if sameOriginWithAncestors is not true
.
-
Throw a "
NotAllowedError
"DOMException
without altering the user agent’s credential store if sameOriginWithAncestors isfalse
.Note: This restriction aims to address the concern raised in § 6.4 Origin Confusion.
-
If the user agent’s credential store contains a
PasswordCredential
(stored) whoseid
attribute is credential’sid
and whose[[origin]]
slot is the same origin as credential’s[[origin]]
, then:-
If the user grants permission to update credentials (as discussed when defining user mediation), then:
Otherwise, if the user grants permission to store credentials (as discussed when defining user mediation, then:
-
Store a
PasswordCredential
in the credential store with the following properties:id
-
credential’s
id
name
,-
credential’s
name
iconURL
-
credential’s
iconURL
[[origin]]
-
credential’s
[[origin]]
password
-
credential’s
password
-
3.3.4. Create a PasswordCredential
from an HTMLFormElement
To Create a PasswordCredential
from an HTMLFormElement
, given an HTMLFormElement
(form) and an origin (origin), run these steps.
Note: § 3.1.2 Post-sign-in Confirmation and § 3.1.3 Change Password provide examples of the intended usage.
-
Let data be a new
PasswordCredentialData
dictionary. -
Set data’s
origin
member’s value to origin’s value. -
Let formData be the result of executing the
FormData
constructor on form. -
Let elements be a list of all the submittable elements whose form owner is form, in tree order.
-
Let newPasswordObserved be
false
. -
For each field in elements, run the following steps:
-
If field does not have an
autocomplete
attribute, then skip to the next field. -
Let name be the value of field’s
name
attribute. -
If formData’s
has()
method returnsfalse
when executed on name, then skip to the next field. -
If field’s
autocomplete
attribute’s value contains one or more autofill detail tokens (tokens), then:-
For each token in tokens:
-
If token is an ASCII case-insensitive match for one of the following strings, run the associated steps:
- "
new-password
" -
Set data’s
password
member’s value to the result of executing formData’sget()
method on name, and newPasswordObserved totrue
. - "
current-password
" -
If newPasswordObserved is
false
, set data’spassword
member’s value to the result of executing formData’sget()
method on name.Note: By checking that newPasswordObserved is
false
,new-password
fields take precedence overcurrent-password
fields. - "
photo
" -
Set data’s
iconURL
member’s value to the result of executing formData’sget()
method on name. - "
name
"- "
nickname
" - "
-
Set data’s
name
member’s value to the result of executing formData’sget()
method on name. - "
username
" -
Set data’s
id
member’s value to the result of executing formData’sget()
method on name.
- "
-
-
-
-
Let c be the result of executing Create a
PasswordCredential
fromPasswordCredentialData
on data. If that threw an exception, rethrow that exception. -
Assert: c is a
PasswordCredential
. -
Return c.
3.3.5. Create a PasswordCredential
from PasswordCredentialData
To Create a PasswordCredential
from PasswordCredentialData
, given an PasswordCredentialData
(data), run these steps.
-
Let c be a new
PasswordCredential
object. -
If any of the following are the empty string, throw a
TypeError
exception: -
Set c’s properties as follows:
-
Return c.
3.3.6. CredentialRequestOptions
Matching for PasswordCredential
Given a CredentialRequestOptions
(options), the following algorithm returns "Matches
" if
the PasswordCredential
should be available as a response to a get()
request, and "Does Not Match
" otherwise.
-
If options has a
password
member whose value istrue
, then return "Matches
". -
Return "
Does Not Match
".
4. Federated Credentials
4.1. The FederatedCredential
Interface
[Exposed =Window ,SecureContext ]interface :
FederatedCredential Credential {constructor (FederatedCredentialInit );
data readonly attribute USVString provider ;readonly attribute DOMString ?protocol ; };FederatedCredential includes CredentialUserData ;dictionary {
FederatedCredentialRequestOptions sequence <USVString >;
providers sequence <DOMString >; };
protocols partial dictionary CredentialRequestOptions {FederatedCredentialRequestOptions ; };
federated
provider
, of type USVString, readonly-
The credential’s federated identity provider. See § 4.1.1 Identifying Providers for details regarding valid formats.
protocol
, of type DOMString, readonly, nullable-
The credential’s federated identity provider’s protocol (e.g. "
openidconnect
"). If the value isnull
, then the protocol can be inferred from theprovider
. [[type]]
-
The
FederatedCredential
interface object has an internal slot named[[type]]
whose value is "federated
". [[discovery]]
-
The
FederatedCredential
interface object has an internal slot named[[discovery]]
whose value is "credential store
". FederatedCredential(data)
-
This constructor accepts a
FederatedCredentialInit
(data), and runs the following steps:-
Let r be the result of executing Create a
FederatedCredential
fromFederatedCredentialInit
on data. If that threw an exception, rethrow that exception. -
Return r.
-
FederatedCredential
objects can be created by passing a FederatedCredentialInit
dictionary
into navigator.credentials.create()
.
dictionary :
FederatedCredentialInit CredentialData {USVString ;
name USVString ;
iconURL required USVString ;
origin required USVString ;
provider DOMString ; };
protocol partial dictionary CredentialCreationOptions {FederatedCredentialInit ; };
federated
FederatedCredential
objects are origin bound.
FederatedCredential
's interface object inherits Credential
's implementation of [[DiscoverFromExternalSource]](origin, options, sameOriginWithAncestors)
,
and defines its own implementation of [[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
, [[Create]](origin, options, sameOriginWithAncestors)
, and [[Store]](credential, sameOriginWithAncestors)
.
Note: If, in the future, we teach the user agent to obtain authentication tokens on a user’s
behalf, we could do so by building an implementation of [[DiscoverFromExternalSource]](origin, options, sameOriginWithAncestors)
.
4.1.1. Identifying Providers
Every site should use the same identifier when referring to a specific federated identity provider. For example, Facebook Login shouldn’t be referred to as "Facebook" and "Facebook Login" and "FB" and "FBL" and "Facebook.com" and so on. It should have a canonical identifier which everyone can make use of, as consistent identification makes it possible for user agents to be helpful.
For consistency, federations passed into the APIs defined in this document (e.g. FederatedCredentialRequestOptions
's providers
array, or FederatedCredential
's provider
property) MUST be identified by the ASCII serialization of the origin the provider uses
for sign in. That is, Facebook would be represented by https://www.facebook.com
and Google by https://accounts.google.com
.
This serialization of an origin does _not_ include a trailing U+002F SOLIDUS ("/
"), but
user agents SHOULD accept them silently: https://accounts.google.com/
is clearly
intended to be the same as https://accounts.google.com
.
4.2. Algorithms
4.2.1. FederatedCredential
’s [[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
[[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
is called with an origin (origin), a CredentialRequestOptions
(options),
and a boolean which is true
if and only if the calling context is same-origin with its ancestors (sameOriginWithAncestors).
The algorithm returns a set of Credential
objects from
the credential store. If no matching Credential
objects are available, the returned set
will be empty.
-
If sameOriginWithAncestors is
false
, throw a "NotAllowedError
"DOMException
.Note: This restriction aims to address the concern raised in § 6.4 Origin Confusion.
-
Return the empty set if options["
federated
"] is nottrue
. -
Return the result of retrieving credentials from the credential store that match the following filter:
-
The credential is a
FederatedCredential
-
The credential’s
[[origin]]
is the same origin as origin. -
If options["
federated
"]["providers
"] exists, its value contains the credentials’sprovider
. -
If options["
federated
"]["protocols
"] exists, its value contains the credentials’sprotocol
.
-
4.2.2. FederatedCredential
’s [[Create]](origin, options, sameOriginWithAncestors)
[[Create]](origin, options, sameOriginWithAncestors)
is called with an origin (origin), a CredentialCreationOptions
(options), and a boolean which is true
if and only if the
calling context is same-origin with its ancestors (sameOriginWithAncestors).
The algorithm returns a FederatedCredential
if one can be created, null
otherwise, or throws an exception in exceptional circumstances:
-
Assert: options["
federated
"] exists, and sameOriginWithAncestors is unused. -
Set options["
federated
"]'sorigin
member’s value to origin’s value. -
Return the result of executing Create a
FederatedCredential
fromFederatedCredentialInit
given options["federated
"]. If that threw an exception, then rethrow that exception.
4.2.3. FederatedCredential
’s [[Store]](credential, sameOriginWithAncestors)
[[Store]](credential, sameOriginWithAncestors)
is
called with a FederatedCredential
(credential), and a boolean which is true
if and only if the
calling context is same-origin with its ancestors (sameOriginWithAncestors). The algorithm
returns undefined
once credential is persisted to the credential store.
The algorithm will return a NotAllowedError
if sameOriginWithAncestors is not true
.
-
Throw a "
NotAllowedError
"DOMException
without altering the user agent’s credential store if sameOriginWithAncestors isfalse
.Note: This restriction aims to address the concern raised in § 6.4 Origin Confusion.
-
If the user agent’s credential store contains a
FederatedCredential
whoseid
attribute is credential’sid
and whose[[origin]]
slot is the same origin as credential’s[[origin]]
, and whoseprovider
is credential’sprovider
, then return. -
If the user grants permission to store credentials (as discussed when defining user mediation), then store a
FederatedCredential
in the credential store with the following properties:
4.2.4. Create a FederatedCredential
from FederatedCredentialInit
To Create a FederatedCredential
from FederatedCredentialInit
, given a FederatedCredentialInit
(init), run these steps.
-
Let c be a new
FederatedCredential
object. -
If any of the following are the empty string, throw a
TypeError
exception: -
Set c’s properties as follows:
-
Return c.
5. User Mediation
Exposing credential information to the web via an API has a number of potential impacts on user privacy. The user agent, therefore, MUST involve the user in a number of cases in order to ensure that they clearly understands what’s going on, and with whom their credentials are being shared.
We call a particular action user mediated if it takes place after gaining a user’s explicit consent. Consent might be expressed through a user’s direct interaction with a credential chooser interface, for example. In general, user mediated actions will involve presenting the user some sort of UI, and asking them to make a decision.
An action is unmediated if it takes place silently, without explicit user consent. For example, if a user configures their browser to grant persistent credential access to a particular origin, credentials may be provided without presenting the user with a UI requesting a decision.
Here we’ll spell out a few requirements that hold for all credential types, but note that there’s a good deal of latitude left up to the user agent (which is in a priviliged position to assist the user). Moreover, specific credential types may have distinct requirements that exceed the requirements laid out more generally here.
5.1. Storing and Updating Credentials
Credential information is sensitive data, and users MUST remain in control of that information’s storage. Inadvertent credential storage could, for instance, unexpectedly link a user’s local profile on a particular device to a specific online persona. To mitigate the risk of surprise:
-
Credential information SHOULD NOT be stored or updated without user mediation. For example, the user agent could display a "Save this credential?" dialog box to the user in response to each call to
store()
.User consent MAY be inferred if a user agent chooses to offer a persistant grant of consent in the form of an "Always save passwords" option (though we’d suggest that user agents should err on the side of something more narrowly scoped: perhaps "Always save _generated_ passwords.", or "Always save passwords for this site.").
-
User agents SHOULD notify users when credentials are stored. This might take the form of an icon in the address bar, or some similar location.
-
User agents MUST allow users to manually remove stored credentials. This functionality might be implemented as a settings page, or via interaction with a notification as described above.
5.2. Requiring User Mediation
By default, user mediation is required for all origins, as the relevant prevent silent
access flag in the credential store is set to true
. Users MAY choose to grant an
origin persistent access to credentials (perhaps in the form of a "Stay signed into this site."
option), which would set this flag to false
. In this case, the user would always be signed into
that site, which is desirable from the perspective of usability and convinience, but which
might nevertheless have surprising implications (consider a user agent which syncs this flag’s
state across devices, for instance).
To mitigate the risk of surprise:
-
User agents MUST allow users to require user mediation for a given origin or for all origins. This functionality might be implemented as a global toggle that overrides each origin’s prevent silent access flag to return
false
, or via more granular settings for specific origins (or specific credentials on specific origins). -
User agents MUST NOT set an origin's prevent silent access flag to
false
without user mediation. For example, the credential chooser described in § 5.3 Credential Selection could have a checkbox which the user could toggle to mark a credential as available without mediation for the origin, or the user agent could have an onboarding process for its credential manager which asked a user for a default setting. -
User agents MUST notify users when credentials are provided to an origin. This could take the form of an icon in the address bar, or some similar location.
-
If a user clears her browsing data for an origin (cookies, localStorage, and so on), the user agent MUST set the prevent silent access flag to
true
for that origin.
5.3. Credential Selection
When responding to a call to get()
on an origin which requires user mediation, user agents MUST ask the user for permission to share credential information.
This SHOULD take the form of a credential chooser which presents the user with a
list of credentials that are available for use on a site, allowing them to select one which should
be provided to the website, or to abort the request entirely.
The chooser’s user interface SHOULD be implemented in such a way as to be distinguishable from UI which a website could produce. For example, the chooser might overlap the user agent’s UI in some unspoofable way.
The chooser’s user interface MUST include an indication of the origin which is requesting credentials.
The chooser’s user interface SHOULD include all Credential
objects associated with the origin that
requested credentials.
User agents MAY internally associate information with each Credential
object beyond the
attributes specified in this document in order to enhance the utility of such a chooser. For
example, favicons could help disambiguate identity providers, etc. Any additional information
stored MUST not be exposed directly to the web.
The chooser’s behavior is not defined here: user agents are encouraged to experiment with UI treatments that educate users about their authentication options, and guide them through the process of choosing a credential to present. That said, the interface to the chooser is as follows:
Credential
, given a CredentialRequestOptions
(options), and a set of Credential
objects from the credential store (locally discovered credentials).
This algorithm returns either null
if the user chose not to share a credential with the site,
a Credential
object if the user chose a specific credential, or a Credential
interface
object if the user chose a type of credential.
If the options provided is not matchable a priori, then it might also make sense for the chooser interface to list the relevant credential interface objects for options that aren’t covered by the list of explicit credentials. If, for instance, a site accepts webauthn-style authenticators, then "Security Key" might show up in the chooser list with an appropriate icon.
Also, note that in some cases the user agent may skip the chooser entirely. For example, if the only relevant credential interface objects is one that itself requires user interaction, the user agent may return that interface directly, and rely on its internal mediation flow for user consent.
6. Security Considerations
The following sections represent guidelines for various security and privacy considerations. Individual credential types may enforce stricter or more relaxed versions of these guidelines.
6.1. Cross-domain credential access
Credentials are sensitive information, and user agents need to exercise caution in determining
when they can be safely shared with a website. The safest option is to restrict credential
sharing to the exact origin on which they were saved. That is likely too restrictive for the
web, however: consider sites which divide functionality into subdomains like example.com
vs admin.example.com
.
As a compromise between annoying users, and securing their credentials, user agents:
-
MUST NOT share credentials between origins whose scheme components represent a downgrade in security. That is, it may make sense to allow credentials saved on
http://example.com/
to be made available tohttps://example.com/
(in order to encourage developers to migrate to secure transport), but the inverse would be dangerous. -
MAY use the Public Suffix List [PSL] to determine the effective scope of a credential by comparing the registerable domain of the credential’s
[[origin]]
with the origin in whichget()
is called. That is: credentials saved onhttps://admin.example.com/
andhttps://example.com/
MAY be offered to users whenget()
is called fromhttps://www.example.com/
, and vice versa. -
MUST NOT offer credentials to an origin in response to
get()
without user mediation if the credential’s origin is not an exact match for the calling origin. That is,Credential
objects forhttps://example.com
would not be returned directly tohttps://www.example.com
, but could be offered to the user via the chooser.
6.2. Credential Leakage
Developers are well-advised to take some precautions to mitigate the risk that a cross-site scripting attack could turn into persistent access to a user’s account by setting a reasonable Content Security Policy [CSP] which restricts the endpoints to which data can be sent. In particular, developers should ensure that the following directives are set, explicitly or implicitly, in their pages' policies:
-
[=
script-src
=] and [=object-src
=] both restrict script execution on a page, making it less likely that a cross-site scripting attack will succeed in the first place. If sites are populatingform
elements, also [=form-action
=] directives should be set. -
[=
connect-src
=] restricts the origins to whichfetch()
may submit data (which mitigates the risk that credentials could be exfiltrated toevil.com
. -
[=
child-src
=] restricts the nested browsing contexts which may be embedded in a page, making it more difficult to inject a maliciouspostMessage()
target. [HTML]
Developers should, of course, also properly escape input and output, and consider using other layers of defense, such as Subresource Integrity [SRI] to further reduce risk.
When defining specific credential types, specific credential types SHOULD give due consideration to the ways in which credential data can be transmitted over the wire. It might be reasonable, for example, to define transmission mechanisms which are restricted to same-origin endpoints.
6.3. Insecure Sites
User agents MUST NOT expose the APIs defined here to environments which are not secure contexts. User agents might implement autofill mechanisms which store user credentials and fill sign-in forms on non-potentially trustworthy URLs, but those sites cannot be trusted to interact directly with the credential manager in any meaningful way, and those sites MUST NOT have access to credentials saved in secure contexts.
6.4. Origin Confusion
If framed pages have access to the APIs defined here, it might be possible to confuse a user into granting access to credentials for an origin other than the top-level browsing context, which is the only security origin which users can reasonably be expected to understand.
This document exposes the Credential Management APIs to those contexts, as it’s likely that some credential types will be straightforward to make available if user agents put enough thought and context into their UI.
Specific credential types, however, will be difficult to expose in those contexts without risk.
Those credential types are restricted via checks in their [[Create]](origin, options, sameOriginWithAncestors)
, [[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
, [[DiscoverFromExternalSource]](origin, options, sameOriginWithAncestors)
, and [[Store]](credential, sameOriginWithAncestors)
methods, as appropriate.
For example PasswordCredential
's [[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
method
will immedietely return an empty set if called from inside a Worker
, or a non-top-level
browsing context.
6.5. Signing-Out
If a user has chosen to automatically sign-in to websites, as discussed in § 5.2 Requiring User Mediation, then the user agent will provide credentials to an origin
whenever it asks for them. The website can instruct the user agent to suppress this behavior by
calling CredentialsContainer
's preventSilentAccess()
method, which
will turn off automatic sign-in for a given origin.
The user agent relies on the website to do the right thing; an inattentive (or malicious) website could simply neglect to call this method, causing the user agent to continue providing credentials against the user’s apparent intention. This is marginally worse than the status-quo of a site that doesn’t clear user credentials when they click "Sign-out", as the user agent becomes complicit in the authentication.
The user MUST have some control over this behavior. As noted in § 5.2 Requiring User Mediation,
clearing cookies for an origin will also reset that origin’s prevent silent access flag the credential store to true
. Additionally, the user agent SHOULD provide some UI affordance
for disabling automatic sign-in for a particular origin. This could be tied to the notification
that credentials have been provided to an origin, for example.
7. Privacy Considerations
7.1. Timing Attacks
If the user has no credentials for an origin, a call to get()
will
resolve very quickly indeed. A malicious website could distinguish between a user with no
credentials and a user with credentials who chooses not to share them.
User agents SHOULD also rate-limit credential requests. It’s almost certainly abusive for a page to request credentials more than a few times in a short period.
7.2. Chooser Leakage
If a user agent’s credential chooser displays images supplied by an origin (for example, if a Credential
displays a site’s favicon), then, requests for these images MUST NOT be directly
tied to instantiating the chooser in order to avoid leaking chooser usage. One option would be to
fetch the images in the background when saving or updating a Credential
, and to cache them for
the lifetime of the Credential
.
These images MUST be fetched with the credentials mode set to "omit
", the service-workers mode set to "none
", the client set to null
, the initiator set to the empty string, and the destination "subresource
".
Moreover, if the user agent allows the user to change either the name or icon associated with the credential, the alterations to the data SHOULD NOT be exposed to the website (consider a user who names two credentials for an origin "My fake account" and "My real account", for instance).
7.3. Locally Stored Data
This API offers an origin the ability to store data persistently along with a user’s profile. Since most user agents treat credential data differently than "browsing data" (cookies, etc.) this might have the side effect of surprising a user who might believe that all traces of an origin have been wiped out when they clear their cookies.
User agents SHOULD provide UI that makes it clear to a user that credential data is stored for an origin, and SHOULD make it easy for users to remove such data when they’re no longer interested in keeping it around.
8. Implementation Considerations
This section is non-normative.
8.1. Website Authors
Add some thoughts here about when and how the API
should be used, especially with regard to mediation
. [Issue #w3c/webappsec#290]
Describe encoding restrictions of submitting credentials by fetch()
with a FormData
body.
When performing feature detection for a given credential type, developers are encouraged to verify
that the relevant Credential
specialization is present, rather than relying on the presence of navigator.credentals
. The latter verifies the existence of the API itself, but does not ensure
that the specific kind of credential necessary for a given site is supported. For example, if a
given site requires passwords, checking if (window.PasswordCredential)
is the most effective
verification of support.
8.2. Extension Points
This document provides a generic, high-level API that’s meant to be extended with specific types of credentials that serve specific authentication needs. Doing so is, hopefully, straightforward:
-
Define a new interface that inherits from
Credential
: -
Define appropriate
[[Create]](origin, options, sameOriginWithAncestors)
,[[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
,[[DiscoverFromExternalSource]](origin, options, sameOriginWithAncestors)
, and[[Store]](credential, sameOriginWithAncestors)
methods onExampleCredential
’s interface object.[[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
is appropriate for credentials that remain effective forever and can therefore simply be copied out of the credential store, while[[DiscoverFromExternalSource]](origin, options, sameOriginWithAncestors)
is appropriate for credentials that need to be re-generated from a credential source.Long-running operations, like those in
PublicKeyCredential
's[[Create]](origin, options, sameOriginWithAncestors)
and[[DiscoverFromExternalSource]](origin, options, sameOriginWithAncestors)
operations are encouraged to useoptions.signal
to allow developers to abort the operation. See DOM § 3.3 Using AbortController and AbortSignal objects in APIs for detailed instructions.ExampleCredential
’s[[CollectFromCredentialStore]](origin, options, sameOriginWithAncestors)
internal method is called with an origin (origin
), a CredentialRequestOptions object (options
), and a boolean which istrue
if and only if the calling context is same-origin with its ancestors. The algorithm returns a set ofCredential
objects that match the options provided. If no matchingCredential
objects are available, the returned set will be empty.-
Assert:
options
[example
] exists. -
If
options
[example
] is not truthy, return the empty set. -
For each credential in the credential store:
-
...
-
-
-
Define the value of the
ExampleCredential
interface object's[[type]]
slot:TheExampleCredential
interface object has an internal slot named[[type]]
whose value is the string "example
". -
Define the value of the
ExampleCredential
interface object's[[discovery]]
slot:TheExampleCredential
interface object has an internal slot named[[discovery]]
whose value is "credential store
". -
Extend
CredentialRequestOptions
with the options the new credential type needs to respond reasonably toget()
: -
Extend
CredentialCreationOptions
with the data the new credential type needs to createCredential
objects in response tocreate()
: -
If the new credential type supports
conditional
user mediation, defineExampleCredential/isConditionalMediationAvailable()
to return a newPromise
that resolves withtrue
. -
Following the procedure in § 2.1.2.1 Registration Entry Requirements and Update Process, add an entry to the Credential Type Registry for the new "example" credential type and its corresponding:
-
CredentialCreationOptions
' andCredentialRequestOptions
' Options Member Identifier (in this case it is "example"), and -
Appropriate Interface Object identifier (in this case it is
ExampleCredential
).
Note: The credential type's options dictionaries' Options Member Identifier must be the same in both
CredentialCreationOptions
andCredentialRequestOptions
, and should be the same as the credential type value in theCredential
interface object's[[type]]
slot. -
You might also find that new primitives are necessary. For instance, you might want to return
many Credential
objects rather than just one in some sort of complicated, multi-factor
sign-in process. That might be accomplished in a generic fashion by adding a getAll()
method to CredentialsContainer
which returned a sequence<Credential>
, and defining a reasonable
mechanism for dealing with requesting credentials of distinct types.
For any such extension, we recommend getting in touch with public-webappsec@ for consultation and review.
8.3. Browser Extensions
Ideally, user agents that implement an extension system of some sort will allow third-parties to hook into these API endpoints in order to improve the behavior of third party credential management software in the same way that user agents can improve their own via this imperative approach.
This could range from a complex new API that the user agent mediates, or
simply by allowing extensions to overwrite the get()
and store()
endpoints for their own purposes.
9. Future Work
This section is non-normative.
The API defined here does the bare minimum to expose user agent’s credential managers to the web, and allows the web to help those credential managers understand when federated identity providers are in use. The next logical step will be along the lines sketched in documents like [WEB-LOGIN] (and, to some extent, Mozilla’s BrowserID [BROWSERID]).
The user agent is in the unique position of being able to effectively mediate the relationship between users, identity providers, and websites. If the user agent can remove some of the risk and confusion associated with the typical authentication flows, users will be in a significantly better position than today.
A natural way to expose this information might be to extend the FederatedCredential
interface
with properties like authentication tokens, and possibly to add some form of manifest format with
properties that declare the authentication type which the provider supports.
The API described here is designed to be extensible enough to support use cases that require user
interaction, perhaps with websites other than the one which requested credentials. We hope that
the Promise-based system we’ve settled on is extensible enough to support these kinds of
asynchronous flows which could require some level of interaction between multiple browsing
contexts (e.g. mediated activity on idp.com
might resolve a Promise handed back to rp.com
) or between devices and user agents (e.g. [WEBAUTHN]) in the future without
redesigning the API from the ground up.
Baby steps.