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<title>Decentralized Identifiers (DIDs) v1.1</title>
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<body data-cite="infra rfc3986">
<section id='abstract'>
<p>
<a>Decentralized identifiers</a> (DIDs) are a new type of identifier that
enables verifiable, decentralized digital identity. A <a>DID</a> refers to any
subject (e.g., a person, organization, thing, data model, abstract entity, etc.)
as determined by the controller of the <a>DID</a>. In contrast to
typical, federated identifiers, <a>DIDs</a> have been designed so that they may
be decoupled from centralized registries, identity providers, and certificate
authorities. Specifically, while other parties might be used to help enable the
discovery of information related to a <a>DID</a>, the design enables the
controller of a <a>DID</a> to prove control over it without requiring permission
from any other party. <a>DIDs</a> are <a>URIs</a> that associate a <a>DID
subject</a> with a <a>DID document</a> allowing trustable interactions
associated with that subject.
</p>
<p>
Each <a>DID document</a> can express cryptographic material, <a>verification
methods</a>, or <a>services</a>, which provide a set of mechanisms enabling a
<a>DID controller</a> to prove control of the <a>DID</a>. <a>Services</a> enable
trusted interactions associated with the <a>DID subject</a>. A <a>DID</a> might
provide the means to return the <a>DID subject</a> itself, if the <a>DID
subject</a> is an information resource such as a data model.
</p>
<p>
This document specifies the DID syntax, a common data model, core properties,
serialized representations, DID operations, and an explanation of the process
of resolving DIDs to the resources that they represent.
</p>
</section>
<section id='sotd'>
<p>
This version of the DID Core specification, version 1.1, is experimental.
DO NOT implement it. If you want to implement DIDs, use the current version 1.0
specification: [[[DID-CORE]]].
</p>
</section>
<section class="informative">
<h1>Introduction</h1>
<p>
As individuals and organizations, many of us use globally unique identifiers in
a wide variety of contexts. They serve as communications addresses (telephone
numbers, email addresses, usernames on social media), ID numbers (for passports,
drivers licenses, tax IDs, health insurance), and product identifiers (serial
numbers, barcodes, RFIDs). URIs (Uniform Resource Identifiers) are used for
resources on the Web and each web page you view in a browser has a globally
unique URL (Uniform Resource Locator).
</p>
<p>
The vast majority of these globally unique identifiers are not under our
control. They are issued by external authorities that decide who or what they
refer to and when they can be revoked. They are useful only in certain contexts
and recognized only by certain bodies not of our choosing. They might
disappear or cease to be valid with the failure of an organization. They might
unnecessarily reveal personal information. In many cases, they can be
fraudulently replicated and asserted by a malicious third-party, which is
more commonly known as "identity theft".
</p>
<p>
The Decentralized Identifiers (DIDs) defined in this specification are a new
type of globally unique identifier. They are designed to enable individuals and
organizations to generate their own identifiers using systems they trust. These
new identifiers enable entities to prove control over them by authenticating
using cryptographic proofs such as digital signatures.
</p>
<p>
Since the generation and assertion of Decentralized Identifiers is
entity-controlled, each entity can have as many DIDs as necessary to maintain
their desired separation of identities, personas, and interactions. The use of
these identifiers can be scoped appropriately to different contexts. They
support interactions with other people, institutions, or systems that require
entities to identify themselves, or things they control, while providing control
over how much personal or private data should be revealed, all without depending
on a central authority to guarantee the continued existence of the identifier.
These ideas are explored in the DID Use Cases document [[DID-USE-CASES]].
</p>
<p>
This specification does not presuppose any particular technology or cryptography
to underpin the generation, persistence, resolution, or interpretation of DIDs.
For example, implementers can create Decentralized Identifiers based on
identifiers registered in federated or centralized identity management systems.
Indeed, almost all types of identifier systems can add support for DIDs. This
creates an interoperability bridge between the worlds of centralized, federated,
and decentralized identifiers. This also enables implementers to design specific
types of DIDs to work with the computing infrastructure they trust, such as
distributed ledgers, decentralized file systems, distributed databases, and
peer-to-peer networks.
</p>
<p>
This specification is for:
</p>
<ul>
<li>
Anyone that wants to understand the core architectural principles that
are the foundation for Decentralized Identifiers;
</li>
<li>
Software developers that want to produce and consume Decentralized Identifiers
and their associated data formats;
</li>
<li>
Systems integrators that want to understand how to use Decentralized
Identifiers in their software and hardware systems;
</li>
<li>
Specification authors that want to create new DID infrastructures, known as DID
methods, that conform to the ecosystem described by this document.
</li>
</ul>
<p>
In addition to this specification, readers might find the
Use Cases and Requirements for Decentralized Identifiers [[DID-USE-CASES]]
document useful.
</p>
<section class="informative">
<h2>A Simple Example</h2>
<p>
A <a>DID</a> is a simple text string consisting of three parts: 1) the
<code>did</code> URI scheme identifier, 2) the identifier for the <a>DID
method</a>, and 3) the DID method-specific identifier.
</p>
<figure id="parts-of-a-did">
<img style="margin: auto; display: block; width: 75%;"
src="diagrams/parts-of-a-did.svg" alt="
A diagram showing the parts of a DID. The left-most letters spell 'did' in blue,
are enclosed in a horizontal bracket from above and a label that reads 'scheme'
above the bracket. A gray colon follows the 'did' letters. The middle letters
spell 'example' in magenta, are enclosed in a horizontal bracket from below and
a label that reads 'DID Method' below the bracket. A gray colon follows the
DID Method. Finally, the letters at the end read '123456789abcdefghi' in
green, are enclosed in a horizontal bracket from below and a label that
reads 'DID Method Specific String' below the bracket.
" >
<figcaption>
A simple example of a decentralized identifier (DID)
</figcaption>
</figure>
<p>
The example <a>DID</a> above resolves to a <a>DID document</a>. A <a>DID
document</a> contains information associated with the <a>DID</a>, such as ways
to cryptographically <a>authenticate</a> a <a>DID controller</a>.
</p>
<pre class="example nohighlight" title="A simple DID document">
{
"@context": "https://www.w3.org/ns/did/v1.1",
"id": "did:example:123456789abcdefghi",
"authentication": [{
<span class="comment">// used to authenticate as did:...fghi</span>
"id": "did:example:123456789abcdefghi#keys-1",
"type": "Ed25519VerificationKey2020",
"controller": "did:example:123456789abcdefghi",
"publicKeyMultibase": "z6MkmM42vxfqZQsv4ehtTjFFxQ4sQKS2w6WR7emozFAn5cxu"
}]
}
</pre>
</section>
<section class="informative">
<h2>Design Goals</h2>
<p>
<a>Decentralized Identifiers</a> are a component of larger systems, such as the
Verifiable Credentials ecosystem [[VC-DATA-MODEL]], which influenced the design
goals for this specification. The design goals for Decentralized Identifiers
are summarized here.
</p>
<table class="simple">
<thead>
<tr>
<th>
Goal
</th>
<th>
Description
</th>
</tr>
</thead>
<tbody>
<tr>
<td>
Decentralization
</td>
<td>
Eliminate the requirement for centralized authorities or single points of
failure in identifier management, including the registration of globally unique
identifiers, public verification keys, <a>services</a>, and other information.
</td>
</tr>
<tr>
<td>
Control
</td>
<td>
Give entities, both human and non-human, the power to directly control their
digital identifiers without the need to rely on external authorities.
</td>
</tr>
<tr>
<td>
Privacy
</td>
<td>
Enable entities to control the privacy of their information, including minimal,
selective, and progressive disclosure of attributes or other data.
</td>
</tr>
<tr>
<td>
Security
</td>
<td>
Enable sufficient security for requesting parties to depend on <a>DID
documents</a> for their required level of assurance.
</td>
</tr>
<tr>
<td>
Proof-based
</td>
<td>
Enable <a>DID controllers</a> to provide cryptographic proof when interacting
with other entities.
</td>
</tr>
<tr>
<td>
Discoverability
</td>
<td>
Make it possible for entities to discover <a>DIDs</a> for other entities, to
learn more about or interact with those entities.
</td>
</tr>
<tr>
<td>
Interoperability
</td>
<td>
Use interoperable standards so <a>DID</a> infrastructure can make use of
existing tools and software libraries designed for interoperability.
</td>
</tr>
<tr>
<td>
Portability
</td>
<td>
Be system- and network-independent and enable entities to use their digital
identifiers with any system that supports <a>DIDs</a> and <a>DID methods</a>.
</td>
</tr>
<tr>
<td>
Simplicity
</td>
<td>
Favor a reduced set of simple features to make the technology easier to
understand, implement, and deploy.
</td>
</tr>
<tr>
<td>
Extensibility
</td>
<td>
Where possible, enable extensibility provided it does not greatly hinder
interoperability, portability, or simplicity.
</td>
</tr>
</tbody>
</table>
</section>
<section class="informative">
<h2>
Architecture Overview
</h2>
<p>
This section provides a basic overview of the major components of
Decentralized Identifier architecture.
</p>
<figure id="brief-architecture-overview">
<img style="margin: auto; display: block; width: 75%;"
src="diagrams/did_brief_architecture_overview.svg" alt="
DIDs and DID documents are recorded on a Verifiable Data Registry; DIDs resolve
to DID documents; DIDs refer to DID subjects; a DID controller controls a DID
document; DID URLs contains a DID; DID URLs dereferenced to DID document
fragments or external resources.
" >
<figcaption>
Overview of DID architecture and the relationship of the basic components.
See also: <a class="longdesc-link"
href="#brief-architecture-overview-longdesc">narrative description</a>.
</figcaption>
</figure>
<div class="longdesc" id="brief-architecture-overview-longdesc">
<p>
Six internally-labeled shapes appear in the diagram, with labeled arrows
between them, as follows. In the center of the diagram is a rectangle labeled
DID URL, containing small typewritten text "did:example:123/path/to/rsrc". At
the center top of the diagram is a rectangle labeled, "DID", containing small
typewritten text "did:example:123". At the top left of the diagram is an oval,
labeled "DID Subject". At the bottom center of the diagram is a rectangle
labeled, "DID document". At the bottom left is an oval, labeled, "DID
Controller". On the center right of the diagram is a two-dimensional rendering
of a cylinder, labeled, "Verifiable Data Registry".
</p>
<p>
From the top of the "DID URL" rectangle, an arrow, labeled "contains", extends
upwards, pointing to the "DID" rectangle. From the bottom of the "DID URL"
rectangle, an arrow, labeled "refers, and
<strong><em>dereferences</em></strong>, to", extends downward, pointing to the
"DID document" rectangle. An arrow from the "DID" rectangle, labeled
"<strong><em>resolves</em></strong> to", points down to the "DID document"
rectangle. An arrow from the "DID" rectangle, labeled "refers to", points left
to the "DID subject" oval. An arrow from the "DID controller" oval, labeled
"controls", points right to the "DID document" rectangle. An arrow from the
"DID" rectangle, labeled "recorded on", points downards to the right, to the
"Verifiable Data Registry" cylinder. An arrow from the "DID document" rectangle,
labeled "recorded on", points upwards to the right to the "Verifiable Data
Registry" cylinder.
</p>
</div>
<dl>
<dt>
DIDs and DID URLs
</dt>
<dd>
A Decentralized Identifier, or <a>DID</a>, is a <a>URI</a> composed of three
parts: the scheme <code>did:</code>, a method identifier, and a unique,
method-specific identifier specified by the <a>DID method</a>. <a>DIDs</a> are
resolvable to <a>DID documents</a>. A <a>DID URL</a> extends the syntax of a
basic <a>DID</a> to incorporate other standard <a>URI</a> components such as
path, query, and fragment in order to locate a particular
<a>resource</a>—for example, a cryptographic public key inside a <a>DID
document</a>, or a <a>resource</a> external to the <a>DID document</a>.
These concepts are elaborated upon in <a href="#did-syntax"></a> and <a
href="#did-url-syntax"></a>.
</dd>
<dt>
DID subjects
</dt>
<dd>
The subject of a <a>DID</a> is, by definition, the entity identified by the
<a>DID</a>. The <a>DID subject</a> might also be the <a>DID controller</a>.
Anything can be the subject of a <a>DID</a>: person, group, organization,
thing, or concept. This is further defined in <a href="#did-subject"></a>.
</dd>
<dt>
DID controllers
</dt>
<dd>
The <a>controller</a> of a <a>DID</a> is the entity (person, organization, or
autonomous software) that has the capability—as defined by a <a>DID
method</a>—to make changes to a <a>DID document</a>. This capability is
typically asserted by the control of a set of cryptographic keys used by
software acting on behalf of the controller, though it might also be asserted
via other mechanisms. Note that a <a>DID</a> might have more than one
controller, and the <a>DID subject</a> can be the <a>DID controller</a>, or one
of them. This concept is documented in <a href="#did-controller"></a>.
</dd>
<dt>
Verifiable data registries
</dt>
<dd>
In order to be resolvable to <a>DID documents</a>, <a>DIDs</a> are typically
recorded on an underlying system or network of some kind. Regardless of the
specific technology used, any such system that supports recording <a>DIDs</a>
and returning data necessary to produce <a>DID documents</a> is called a
<a>verifiable data registry</a>. Examples include <a>distributed ledgers</a>,
decentralized file systems, databases of any kind, peer-to-peer networks, and
other forms of trusted data storage. This concept is further elaborated upon in
<a href="#methods"></a>.
</dd>
<dt>
DID documents
</dt>
<dd>
<a>DID documents</a> contain information associated with a <a>DID</a>. They
typically express <a>verification methods</a>, such as cryptographic public
keys, and <a>services</a> relevant to interactions with the <a>DID subject</a>.
The generic properties supported in a <a>DID document</a> are specified in <a
href="#core-properties"></a>. A <a>DID document</a> can be serialized to a byte
stream (see <a href="#representations"></a>). The properties present in
a <a>DID document</a> can be updated according to the applicable operations
outlined in <a href="#methods"></a>.
</dd>
<dt>
DID methods
</dt>
<dd>
<a>DID methods</a> are the mechanism by which a particular type of <a>DID</a>
and its associated <a>DID document</a> are created, resolved, updated, and
deactivated. <a>DID methods</a> are defined using separate DID method
specifications as defined in <a href="#methods"></a>.
</dd>
<dt>
DID resolvers and DID resolution
</dt>
<dd>
A <a>DID resolver</a> is a system component that takes a <a>DID</a> as input and
produces a conforming <a>DID document</a> as output. This process is called
<a>DID resolution</a>. The steps for resolving a specific type of <a>DID</a> are
defined by the relevant <a>DID method</a> specification. The process of <a>DID
resolution</a> is elaborated upon in [[?DID-RESOLUTION]].
</dd>
<dt>
DID URL dereferencers and DID URL dereferencing
</dt>
<dd>
A <a>DID URL dereferencer</a> is a system component that takes a <a>DID URL</a>
as input and produces a <a>resource</a> as output. This process is
called <a>DID URL dereferencing</a>. The process of <a>DID URL dereferencing</a>
is elaborated upon in [[?DID-RESOLUTION]].
</dd>
</dl>
</section>
<section id="conformance">
<p>
This document contains examples that contain JSON and JSON-LD content.
Some of these examples contain characters that are invalid, such as inline
comments (<code>//</code>) and the use of ellipsis (<code>...</code>) to denote
information that adds little value to the example. Implementers are cautioned to
remove this content if they desire to use the information as valid JSON
or JSON-LD.
</p>
<p>
Some examples contain terms, both property names and values, that are not
defined in this specification. These are indicated with a comment (<code>//
external (property name|value)</code>). Such terms, when used in a <a>DID
document</a>, are expected to be registered in the DID Specification Registries
[[?DID-SPEC-REGISTRIES]] with links to both a formal definition and a JSON-LD
context.
</p>
<p>
Interoperability of implementations for <a>DIDs</a> and <a>DID documents</a> is
tested by evaluating an implementation's ability to create and parse <a>DIDs</a>
and <a>DID documents</a> that conform to this specification. Interoperability
for producers and consumers of <a>DIDs</a> and <a>DID documents</a> is provided
by ensuring the <a>DIDs</a> and <a>DID documents</a> conform. Interoperability
for <a>DID method</a> specifications is provided by the details in each <a>DID
method</a> specification. It is understood that, in the same way that a web
browser is not required to implement all known <a>URI</a> schemes, conformant
software that works with <a>DIDs</a> is not required to implement all known
<a>DID methods</a>. However, all implementations of a given <a>DID method</a>
are expected to be interoperable for that method.
</p>
<p>
A <dfn>conforming DID</dfn> is any concrete expression of the rules specified in
<a href="#identifier"></a> which complies with relevant normative statements in
that section.
</p>
<p>
A <dfn>conforming DID document</dfn> is any concrete expression of the data
model described in this specification which complies with the relevant normative
statements in <a href="#data-model"></a> and <a href="#core-properties"></a>. A
serialization format for the conforming document is deterministic,
bi-directional, and lossless, as described in <a href="#representations"></a>.
</p>
<p>
A <dfn>conforming producer</dfn> is any algorithm realized as software and/or
hardware that generates <a>conforming DIDs</a> or <a>conforming DID
Documents</a> and complies with the relevant normative statements in <a
href="#representations"></a>.
</p>
<p>
A <dfn>conforming consumer</dfn> is any algorithm realized as software and/or
hardware that consumes <a>conforming DIDs</a> or <a>conforming DID documents</a>
and complies with the relevant normative statements in <a
href="#representations"></a>.
</p>
<p>
A <dfn class="lint-ignore">conforming DID method</dfn> is any specification that
complies with the relevant normative statements in <a href="#methods"></a>.
</p>
</section>
</section>
<section class="informative">
<h2>Terminology</h2>
<div data-include="terms.html">
</div>
<p>
In addition to the terminology above, this specification also uses terminology
from the [[INFRA]] specification to formally define the <a
href="#data-model">data model</a>. When [[INFRA]] terminology is used, such as
<a data-cite="INFRA#strings">string</a>, <a
data-cite="INFRA#ordered-set">set</a>, and <a
data-cite="INFRA#maps">map</a>, it is linked directly to that specification.
</p>
</section>
<section>
<h2>Identifier</h2>
<p>
This section describes the formal syntax for <a>DIDs</a> and <a>DID URLs</a>.
The term "generic" is used to differentiate the syntax defined here from syntax
defined by <em>specific</em> <a>DID methods</a> in their respective
specifications. The creation processes, and their timing, for <a>DIDs</a> and
<a>DID URLs</a> are described in <a href="#method-operations"></a> and
<a href="#creation-of-a-did"></a>.
</p>
<section class="normative">
<h3>DID Syntax</h3>
<p>
The generic <a>DID scheme</a> is a <a>URI</a> scheme conformant with
[[!RFC3986]]. The ABNF definition can be found below, which uses the syntax in
[[!RFC5234]] and the corresponding definitions for <code>ALPHA</code> and
<code>DIGIT</code>. All other rule names not defined in the ABNF below are
defined in [[RFC3986]]. All <a>DIDs</a> MUST conform to the
DID Syntax ABNF Rules.
</p>
<table class="simple">
<thead>
<tr>
<th>
The DID Syntax ABNF Rules
</th>
</tr>
</thead>
<tbody>
<tr>
<td>
<pre class="nohighlight">
did = "did:" method-name ":" method-specific-id
method-name = 1*method-char
method-char = %x61-7A / DIGIT
method-specific-id = *( *idchar ":" ) 1*idchar
idchar = ALPHA / DIGIT / "." / "-" / "_" / pct-encoded
pct-encoded = "%" HEXDIG HEXDIG
</pre>
</td>
</tr>
</tbody>
</table>
<p>
For requirements on <a>DID methods</a> relating to the <a>DID</a> syntax, see
Section <a href="#method-syntax"></a>.
</p>
</section>
<section class="normative">
<h3>DID URL Syntax</h3>
<p>
A <a>DID URL</a> is a network location identifier for a specific
<a>resource</a>. It can be used to retrieve things like representations
of <a>DID subjects</a>, <a>verification methods</a>, <a>services</a>,
specific parts of a <a>DID document</a>, or other resources.
</p>
<p>
The following is the ABNF definition using the syntax in [[!RFC5234]]. It builds
on the <code>did</code> scheme defined in <a href="#did-syntax"></a>. The <a
data-cite="!rfc3986#section-3.3"><code>path-abempty</code></a>, <a
data-cite="!rfc3986#section-3.4"><code>query</code></a>, and <a
data-cite="!rfc3986#section-3.5"><code>fragment</code></a> components are
defined in [[!RFC3986]]. All <a>DID URLs</a> MUST conform to the
DID URL Syntax ABNF Rules. <a>DID methods</a> can further restrict these
rules, as described in <a href="#method-syntax"></a>.
</p>
<table class="simple">
<thead>
<tr>
<th>
The DID URL Syntax ABNF Rules
</th>
</tr>
</thead>
<tbody>
<tr>
<td>
<pre class="nohighlight">
did-url = did path-abempty [ "?" query ] [ "#" fragment ]
</pre>
</td>
</tr>
</tbody>
</table>
<p class="note" title="Semicolon character is reserved for future use">
Although the semicolon (<code>;</code>) character can be used according to the
rules of the <a>DID URL</a> syntax, future versions of this specification may
use it as a sub-delimiter for parameters as described in [[?MATRIX-URIS]]. To
avoid future conflicts, developers ought to refrain from using it.
</p>
<section class="notoc">
<h2>Path</h2>
<p>
A <a>DID path</a> is identical to a generic <a>URI</a> path and conforms to the
<code>path-abempty</code> ABNF rule in <a
data-cite="RFC3986#section-3.3">RFC 3986, section 3.3</a>. As with
<a>URIs</a>, path semantics can be specified by <a>DID Methods</a>, which in
turn might enable <a>DID controllers</a> to further specialize those semantics.
</p>
<pre class="example nohighlight">
did:example:123456/path
</pre>
</section>
<section class="notoc">
<h2>Query</h2>
<p>
A <a>DID query</a> is identical to a generic <a>URI</a> query and conforms to
the <code>query</code> ABNF rule in <a
data-cite="RFC3986#section-3.4">RFC 3986, section 3.4</a>. This syntax
feature is elaborated upon in <a href="#did-parameters"></a>.
</p>
<pre class="example nohighlight">
did:example:123456?versionId=1
</pre>
</section>
<section class="notoc">
<h2>Fragment</h2>
<p>
<a>DID fragment</a> syntax and semantics are identical to a generic <a>URI</a>
fragment and conforms to the <code>fragment</code> ABNF rule in <a
data-cite="RFC3986#section-3.5">RFC 3986, section 3.5</a>.
</p>
<p>
A <a>DID fragment</a> is used as a method-independent reference into a <a>DID
document</a> or external <a>resource</a>. Some examples of DID fragment
identifiers are shown below.
</p>
<pre class="example nohighlight"
title="A unique verification method in a DID Document">
did:example:123#public-key-0
</pre>
<pre class="example nohighlight"
title="A unique service in a DID Document">
did:example:123#agent
</pre>
<pre class="example nohighlight"
title="A resource external to a DID Document">
did:example:123?service=agent&relativeRef=/credentials%23degree
</pre>
<p class="note"
title="Fragment semantics across representations">
In order to maximize interoperability, implementers are urged to ensure that
<a>DID fragments</a> are interpreted in the same way across
<a>representations</a> (see <a href="#representations"></a>). For example, while
JSON Pointer [[?RFC6901]] can be used in a <a>DID fragment</a>, it will not be
interpreted in the same way across non-JSON <a>representations</a>.
</p>
<p>
Additional semantics for fragment identifiers, which are compatible with and
layered upon the semantics in this section, are described for JSON-LD
representations in <a href="#application-did"></a>. For information
about how to dereference a <a>DID fragment</a>, see [[?DID-RESOLUTION]].
</p>
</section>
<section>
<h2>DID Parameters</h2>
<p>
The <a>DID URL</a> syntax supports a simple format for parameters based on the
<code>query</code> component described in <a href="#query"></a>. Adding a DID
parameter to a <a>DID URL</a> means that the parameter becomes part of the
identifier for a <a>resource</a>.
</p>
<pre class="example nohighlight"
title="A DID URL with a 'versionTime' DID parameter">
did:example:123?versionTime=2021-05-10T17:00:00Z
</pre>
<pre class="example nohighlight"
title="A DID URL with a 'service' and a 'relativeRef' DID parameter">
did:example:123?service=files&relativeRef=/resume.pdf
</pre>
<p>
Some DID parameters are completely independent of of any specific <a>DID
method</a> and function the same way for all <a>DIDs</a>. Other DID parameters
are not supported by all <a>DID methods</a>. Where optional parameters are
supported, they are expected to operate uniformly across the <a>DID methods</a>
that do support them. The following table provides common DID parameters that
function the same way across all <a>DID methods</a>. Support for all
<a href="#did-parameters">DID Parameters</a> is OPTIONAL.
</p>
<p class="note">
It is generally expected that DID URL dereferencer implementations will
reference [[?DID-RESOLUTION]] for additional implementation details. The scope
of this specification only defines the contract of the most common
query parameters.
</p>
<table class="simple">
<thead>
<tr>
<th>
Parameter Name
</th>
<th>
Description
</th>
</tr>
</thead>
<tbody>
<tr>
<td>
<code><a>service</a></code>
</td>
<td>
Identifies a service from the <a>DID document</a> by service ID.
If present, the associated value MUST be an <a
data-lt="ascii string">ASCII string</a>.
</td>
</tr>
<tr>
<td>
<code>relativeRef</code>
</td>
<td>
A relative <a>URI</a> reference according to <a
data-cite="RFC3986#section-4.2">RFC3986 Section 4.2</a> that identifies a
<a>resource</a> at a <a>service endpoint</a>, which is selected from a <a>DID
document</a> by using the <code>service</code> parameter.
If present, the associated value MUST be an <a
data-lt="ascii string">ASCII string</a> and MUST use percent-encoding for
certain characters as specified in <a data-cite="RFC3986#section-2.1">RFC3986
Section 2.1</a>.
</td>
</tr>
<tr>
<td>
<code>versionId</code>
</td>
<td>
Identifies a specific version of a <a>DID document</a> to be resolved (the
version ID could be sequential, or a <a>UUID</a>, or method-specific).
If present, the associated value MUST be an <a
data-lt="ascii string">ASCII string</a>.
</td>
</tr>
<tr>
<td>
<code>versionTime</code>