Rfc | 7089 |
Title | HTTP Framework for Time-Based Access to Resource States -- Memento |
Author | H. Van de Sompel, M. Nelson, R. Sanderson |
Date | December 2013 |
Format: | TXT, HTML |
Status: | INFORMATIONAL |
|
Independent Submission H. Van de Sompel
Request for Comments: 7089 Los Alamos National Laboratory
Category: Informational M. Nelson
ISSN: 2070-1721 Old Dominion University
R. Sanderson
Los Alamos National Laboratory
December 2013
HTTP Framework for Time-Based Access to Resource States -- Memento
Abstract
The HTTP-based Memento framework bridges the present and past Web.
It facilitates obtaining representations of prior states of a given
resource by introducing datetime negotiation and TimeMaps. Datetime
negotiation is a variation on content negotiation that leverages the
given resource's URI and a user agent's preferred datetime. TimeMaps
are lists that enumerate URIs of resources that encapsulate prior
states of the given resource. The framework also facilitates
recognizing a resource that encapsulates a frozen prior state of
another resource.
Status of This Memo
This document is not an Internet Standards Track specification; it is
published for informational purposes.
This is a contribution to the RFC Series, independently of any other
RFC stream. The RFC Editor has chosen to publish this document at
its discretion and makes no statement about its value for
implementation or deployment. Documents approved for publication by
the RFC Editor are not a candidate for any level of Internet
Standard; see Section 2 of RFC 5741.
Information about the current status of this document, any errata,
and how to provide feedback on it may be obtained at
http://www.rfc-editor.org/info/rfc7089.
Copyright Notice
Copyright (c) 2013 IETF Trust and the persons identified as the
document authors. All rights reserved.
This document is subject to BCP 78 and the IETF Trust's Legal
Provisions Relating to IETF Documents
(http://trustee.ietf.org/license-info) in effect on the date of
publication of this document. Please review these documents
carefully, as they describe your rights and restrictions with respect
to this document.
Table of Contents
1. Introduction ....................................................4
1.1. Terminology ................................................4
1.2. Notational Conventions .....................................4
1.3. Purpose ....................................................5
2. HTTP Headers, Link Relation Types ...............................7
2.1. HTTP Headers ...............................................7
2.1.1. Accept-Datetime and Memento-Datetime ................7
2.1.2. Vary ................................................8
2.1.3. Link ................................................8
2.2. Link Relation Types ........................................9
2.2.1. Link Relation Type "original" .......................9
2.2.2. Link Relation Type "timegate" .......................9
2.2.3. Link Relation Type "timemap" ........................9
2.2.4. Link Relation Type "memento" .......................10
3. Overview of the Memento Framework ..............................11
3.1. Datetime Negotiation ......................................11
3.2. TimeMaps ..................................................13
4. Datetime Negotiation: HTTP Interactions ........................14
4.1. Pattern 1 - The Original Resource Acts as Its Own
TimeGate ..................................................15
4.1.1. Pattern 1.1 - URI-R=URI-G; 302-Style
Negotiation; Distinct URI-M for Mementos ..........16
4.1.2. Pattern 1.2 - URI-R=URI-G; 200-Style
Negotiation; Distinct URI-M for Mementos ...........18
4.1.3. Pattern 1.3 - URI-R=URI-G; 200-Style
Negotiation; No Distinct URI-M for Mementos ........19
4.2. Pattern 2 - A Remote Resource Acts as a TimeGate
for the Original Resource .................................20
4.2.1. Pattern 2.1 - URI-R<>URI-G; 302-Style
Negotiation; Distinct URI-M for Mementos ...........22
4.2.2. Pattern 2.2 - URI-R<>URI-G; 200-Style
Negotiation; Distinct URI-M for Mementos ...........24
4.2.3. Pattern 2.3 - URI-R<>URI-G; 200-Style
Negotiation; No Distinct URI-M for Mementos ........25
4.3. Pattern 3 - The Original Resource is a Fixed Resource .....26
4.4. Pattern 4 - Mementos without a TimeGate ...................27
4.5. Special Cases .............................................29
4.5.1. Original Resource Provides No "timegate" Link ......29
4.5.2. Server Exists but Original Resource No
Longer Does ........................................29
4.5.3. Issues with Accept-Datetime ........................30
4.5.4. Memento of a 3XX Response ..........................30
4.5.5. Memento of Responses with 4XX or 5XX HTTP
Status Codes .......................................32
4.5.6. Sticky "Memento-Datetime" and "original"
Link for Mementos ..................................33
4.5.7. Intermediate Resources .............................34
4.5.8. Resources Excluded from Datetime Negotiation .......35
5. TimeMaps: Content and Serialization ............................36
5.1. Special Cases .............................................38
5.1.1. Index and Paging TimeMaps ..........................38
5.1.2. Mementos for TimeMaps ..............................39
6. IANA Considerations ............................................40
6.1. HTTP Headers ..............................................40
6.2. Link Relation Types .......................................40
7. Security Considerations ........................................41
8. Acknowledgements ...............................................42
9. References .....................................................42
9.1. Normative References ......................................42
9.2. Informative References ....................................42
Appendix A. Use of Headers and Relation Types per Pattern .........43
1. Introduction
1.1. Terminology
This specification uses the terms "resource", "request", "response",
"entity-body", "content negotiation", "user agent", and "server" as
described in [RFC2616], and it uses the terms "representation" and
"resource state" as described in [W3C.REC-aww-20041215].
In addition, the following terms specific to the Memento framework
are introduced:
o Original Resource: An Original Resource is a resource that exists
or used to exist, and for which access to one of its prior states
may be required.
o Memento: A Memento for an Original Resource is a resource that
encapsulates a prior state of the Original Resource. A Memento
for an Original Resource as it existed at time T is a resource
that encapsulates the state the Original Resource had at time T.
o TimeGate: A TimeGate for an Original Resource is a resource that
is capable of datetime negotiation to support access to prior
states of the Original Resource.
o TimeMap: A TimeMap for an Original Resource is a resource from
which a list of URIs of Mementos of the Original Resource is
available.
1.2. Notational Conventions
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in [RFC2119].
When needed for extra clarity, the following conventions are used:
o URI-R is used to denote the URI of an Original Resource.
o URI-G is used to denote the URI of a TimeGate.
o URI-M is used to denote the URI of a Memento.
o URI-T is used to denote the URI of a TimeMap.
1.3. Purpose
The state of an Original Resource may change over time.
Dereferencing its URI at any specific moment yields a response that
reflects the resource's state at that moment: a representation of the
resource's state (e.g., "200 OK" HTTP status code), an indication of
its nonexistence (e.g., "404 Not Found" HTTP status code), a relation
to another resource (e.g., "302 Found" HTTP status code), etc.
However, responses may also exist that reflect prior states of an
Original Resource: a representation of a prior state of the Original
Resource, an indication that the Original Resource did not exist at
some time in the past, a relation that the Original Resource had to
another resource at some time in the past, etc. Mementos that
provide such responses exist in Web archives, content management
systems, or revision control systems, among others. For any given
Original Resource several Mementos may exist, each one reflecting a
frozen prior state of the Original Resource.
Examples are:
Mementos for Original Resource http://www.ietf.org/ are as follows:
o http://web.archive.org/web/19970107171109/http://www.ietf.org/
o http://webarchive.nationalarchives.gov.uk/20080906200044/http://
www.ietf.org/
Mementos for Original Resource
http://en.wikipedia.org/wiki/Hypertext_Transfer_Protocol are as
follows:
o http://en.wikipedia.org/w/
index.php?title=Hypertext_Transfer_Protocol&oldid=366806574
o http://en.wikipedia.org/w/
index.php?title=Hypertext_Transfer_Protocol&oldid=33912
o http://web.archive.org/web/20071011153017/http://en.wikipedia.org/
wiki/Hypertext_Transfer_Protocol
Mementos for Original Resource http://www.w3.org/TR/webarch/ are as
follows:
o http://www.w3.org/TR/2004/PR-webarch-20041105/
o http://www.w3.org/TR/2002/WD-webarch-20020830/
o http://archive.is/20120527002537/http://www.w3.org/TR/webarch/
In the abstract, the Memento framework introduces a mechanism to
access versions of Web resources that:
o Is fully distributed in the sense that resource versions may
reside on multiple servers, and that any such server is likely
only aware of the versions it holds;
o Uses the global notion of datetime as a resource version indicator
and access key;
o Leverages the following primitives of [W3C.REC-aww-20041215]:
resource, resource state, representation, content negotiation, and
link.
The core components of Memento's mechanism to access resource
versions are:
1. The abstract notion of the state of an Original Resource (URI-R)
as it existed at datetime T. Note the relationship with the
ability to identify the state of a resource at datetime T by
means of a URI as intended by the proposed Dated URI scheme
[DATED-URI].
2. A "bridge" from the present to the past, consisting of:
o The existence of a TimeGate (URI-G), which is aware of (at
least part of the) version history of the Original Resource
(URI-R);
o The ability to negotiate in the datetime dimension with that
TimeGate (URI-G), as a means to access the state that the
Original Resource (URI-R) had at datetime T.
3. A "bridge" from the past to the present, consisting of an
appropriately typed link from a Memento (URI-M), which
encapsulates the state the Original Resource (URI-R) had at
datetime T, to the Original Resource (URI-R).
4. The existence of a TimeMap (URI-T) from which a list of all
Mementos that encapsulate a prior state of the Original Resource
(URI-R) can be obtained.
This document is concerned with specifying an instantiation of these
abstractions for resources that are identified by HTTP(S) URIs.
2. HTTP Headers, Link Relation Types
The Memento framework is concerned with HEAD and GET interactions
with Original Resources, TimeGates, Mementos, and TimeMaps that are
identified by HTTP or HTTPS URIs. Details are only provided for
resources identified by HTTP URIs but apply similarly to those with
HTTPS URIs.
2.1. HTTP Headers
The Memento framework operates at the level of HTTP request and
response headers. It introduces two new headers ("Accept-Datetime"
and "Memento-Datetime") and introduces new values for two existing
headers ("Vary" and "Link"). Other HTTP headers are present or
absent in Memento response/request cycles as specified by [RFC2616].
2.1.1. Accept-Datetime and Memento-Datetime
The "Accept-Datetime" request header is transmitted by a user agent
to indicate it wants to access a past state of an Original Resource.
To that end, the "Accept-Datetime" header is conveyed in an HTTP
request issued against a TimeGate for an Original Resource, and its
value indicates the datetime of the desired past state of the
Original Resource.
Example of an "Accept-Datetime" request header:
Accept-Datetime: Thu, 31 May 2007 20:35:00 GMT
The "Memento-Datetime" response header is used by a server to
indicate that a response reflects a prior state of an Original
Resource. Its value expresses the datetime of that state. The URI
of the Original Resource for which the response reflects a prior
state is provided as the Target IRI of a link provided in the HTTP
"Link" header that has a Relation Type of "original" (see
Section 2.2).
The presence of a "Memento-Datetime" header and associated value for
a given response constitutes a promise that the resource state
reflected in the response will no longer change (see Section 4.5.6).
Example of a "Memento-Datetime" response header:
Memento-Datetime: Wed, 30 May 2007 18:47:52 GMT
Values for the "Accept-Datetime" and "Memento-Datetime" headers
consist of a MANDATORY datetime expressed according to the [RFC1123]
format, which is formalized by the rfc1123-date construction rule of
the BNF in Figure 1. This BNF is derived from the HTTP-date
construction of the BNF for Full Dates provided in [RFC2616]. The
datetime is case sensitive with names for days and months exactly as
shown in the wkday and month construction rules of the BNF,
respectively. The datetime MUST be represented in Greenwich Mean
Time (GMT).
accept-dt-value = rfc1123-date
rfc1123-date = wkday "," SP date1 SP time SP "GMT"
date1 = 2DIGIT SP month SP 4DIGIT
; day month year (e.g., 20 Mar 1957)
time = 2DIGIT ":" 2DIGIT ":" 2DIGIT
; 00:00:00 - 23:59:59 (e.g., 14:33:22)
wkday = "Mon" | "Tue" | "Wed" | "Thu" | "Fri" | "Sat" |
"Sun"
month = "Jan" | "Feb" | "Mar" | "Apr" | "May" | "Jun" |
"Jul" | "Aug" | "Sep" | "Oct" | "Nov" | "Dec"
Figure 1: BNF for the Datetime Format
2.1.2. Vary
Generally, the "Vary" header is used in HTTP responses to indicate
the dimensions in which content negotiation is possible. In the
Memento framework, a TimeGate uses the "Vary" header with a value
that includes "accept-datetime" to convey that datetime negotiation
is possible.
For example, this use of the "Vary" header indicates that datetime is
the only dimension in which negotiation is possible:
Vary: accept-datetime
The use of the "Vary" header in this example shows that both datetime
negotiation and media type content negotiation are possible:
Vary: accept-datetime, accept
2.1.3. Link
The Memento framework defines the "original", "timegate", "timemap",
and "memento" Relation Types to convey typed links among Original
Resources, TimeGates, Mementos, and TimeMaps. They are defined in
Section 2.2, below. In addition, existing Relation Types may be
used, for example, to support navigating among Mementos. Examples
are "first", "last", "prev", "next", "predecessor-version", and
"successor-version" as detailed in [RFC5988] and [RFC5829].
2.2. Link Relation Types
This section introduces the Relation Types used in the Memento
framework. They are defined in a general way, and their use in HTTP
"Link" headers [RFC5988] is described in detail. The use of these
Relation Types in TimeMaps is described in Section 5.
2.2.1. Link Relation Type "original"
"original" -- A link with an "original" Relation Type is used to
point from a TimeGate or a Memento to its associated Original
Resource.
Use in HTTP "Link" headers: Responses to HTTP HEAD/GET requests
issued against a TimeGate or a Memento MUST include exactly one link
with an "original" Relation Type in their HTTP "Link" header.
2.2.2. Link Relation Type "timegate"
"timegate" -- A link with a "timegate" Relation Type is used to point
from the Original Resource, as well as from a Memento associated with
the Original Resource, to a TimeGate for the Original Resource.
Use in HTTP "Link" headers: If there is a TimeGate associated with an
Original Resource or Memento that is preferred for use, then
responses to HTTP HEAD/GET requests issued against these latter
resources MUST include a link with a "timegate" Relation Type in
their HTTP "Link" header. Since multiple TimeGates can exist for any
Original Resource, multiple "timegate" links MAY occur, each with a
distinct Target IRI.
2.2.3. Link Relation Type "timemap"
"timemap" -- A link with a "timemap" Relation Type is used to point
from a TimeGate or a Memento associated with an Original Resource, as
well as from the Original Resource itself, to a TimeMap for the
Original Resource.
Attributes: A link with a "timemap" Relation Type SHOULD use the
"type" attribute to convey the MIME type of the TimeMap
serialization. The "from" and "until" attributes may be used to
express the start and end of the temporal interval covered by
Mementos listed in the TimeMap. That is, the linked TimeMap will not
contain Mementos with archival datetimes outside of the expressed
temporal interval. Attempts SHOULD be made to convey this interval
as accurately as possible. The value for the these attributes MUST
be a datetime expressed according to the rfc1123-date construction
rule of the BNF in Figure 1, and it MUST be represented in Greenwich
Mean Time (GMT).
Use in HTTP "Link" headers: If there is a TimeMap associated with an
Original Resource, a TimeGate, or a Memento that is preferred for
use, then responses to HTTP HEAD/GET requests issued against these
latter resources MUST include a link with a "timemap" Relation Type
in their HTTP "Link" header. Multiple such links, each with a
distinct Target IRI, MAY be expressed as a means to point to
different TimeMaps or to different serializations of the same
TimeMap. In all cases, use of the "from" and "until" attributes is
OPTIONAL.
2.2.4. Link Relation Type "memento"
"memento" -- A link with a "memento" Relation Type is used to point
from a TimeGate or a Memento for an Original Resource, as well as
from the Original Resource itself, to a Memento for the Original
Resource.
Attributes: A link with a "memento" Relation Type MUST include a
"datetime" attribute with a value that matches the "Memento-Datetime"
of the Memento that is the target of the link; that is, the value of
the "Memento-Datetime" header that is returned when the URI of the
linked Memento is dereferenced. The value for the "datetime"
attribute MUST be a datetime expressed according to the rfc1123-date
construction rule of the BNF in Figure 1, and it MUST be represented
in Greenwich Mean Time (GMT). This link MAY include a "license"
attribute to associate a license with the Memento; the value for the
"license" attribute MUST be a URI.
Use in HTTP "Link" headers: Responses to HTTP HEAD/GET requests
issued against an Original Resource, a TimeGate, and a Memento MAY
include links in their HTTP "Link" headers with a "memento" Relation
Type. For responses in which a Memento is selected, the provision of
navigational links that lead to Mementos other than the selected one
can be beneficial to the user agent. Of special importance are links
that lead to the temporally first and last Memento known to the
responding server, as well as links leading to Mementos that are
temporally adjacent to the selected one.
3. Overview of the Memento Framework
The Memento framework defines two complementary approaches to support
obtaining representations of prior states of an Original Resource:
o Datetime Negotiation: Datetime negotiation is a variation on
content negotiation by which a user agent expresses a datetime
preference pertaining to the representation of an Original
Resource, instead of, for example, a media type preference. Based
on the responding server's knowledge of the past of the Original
Resource, it selects a Memento of the Original Resource that best
meets the user agent's datetime preference. An overview is
provided in Section 3.1; details are in Section 4.
o TimeMaps: A TimeMap is a resource from which a list can be
obtained that provides a comprehensive overview of the past of an
Original Resource. A server makes a TimeMap available that
enumerates all Mementos that the server is aware of, along with
their archival datetime. A user agent can obtain the TimeMap and
select Mementos from it. An overview is provided in Section 3.2;
details are in Section 5.
3.1. Datetime Negotiation
Figure 2 provides a schematic overview of a successful request/
response chain that involves datetime negotiation. Dashed lines
depict HTTP transactions between user agent and server. The
interactions are for a scenario where the Original Resource resides
on one server, whereas both its TimeGate and Mementos reside on
another (Pattern 2.1 (Section 4.2.1) in Section 4). Scenarios also
exist in which all these resources are on the same server (for
example, content management systems) or all are on different servers
(for example, an aggregator of TimeGates).
1: UA --- HTTP HEAD/GET; Accept-Datetime: T ----------------> URI-R
2: UA <-- HTTP 200; Link: URI-G ----------------------------- URI-R
3: UA --- HTTP HEAD/GET; Accept-Datetime: T ----------------> URI-G
4: UA <-- HTTP 302; Location: URI-M; Vary; Link:
URI-R,URI-T ------------------------------------------> URI-G
5: UA --- HTTP GET URI-M; Accept-Datetime: T ---------------> URI-M
6: UA <-- HTTP 200; Memento-Datetime: T; Link:
URI-R,URI-T,URI-G ------------------------------------- URI-M
Figure 2: A Datetime Negotiation Request/Response Chain
Step 1: The user agent that wants to access a prior state of the
Original Resource issues an HTTP HEAD/GET against URI-R that
has an "Accept-Datetime" HTTP header with a value of the
datetime of the desired state.
Step 2: The response from URI-R includes an HTTP "Link" header with
a Relation Type of "timegate" pointing at a TimeGate (URI-G)
for the Original Resource.
Step 3: The user agent starts the datetime negotiation process with
the TimeGate by issuing an HTTP GET request against URI-G
that has an "Accept-Datetime" HTTP header with a value of
the datetime of the desired prior state of the Original
Resource.
Step 4: The response from URI-G includes a "Location" header
pointing at a Memento (URI-M) for the Original Resource. In
addition, the response contains an HTTP "Link" header with a
Relation Type of "original" pointing at the Original
Resource (URI-R), and an HTTP "Link" header with a Relation
Type of "timemap" pointing at a TimeMap (URI-T).
Step 5: The user agent issues an HTTP GET request against URI-M.
Step 6: The response from URI-M includes a "Memento-Datetime" HTTP
header with a value of the archival datetime of the Memento.
It also contains an HTTP "Link" header with a Relation Type
of "original" pointing at the Original Resource (URI-R),
with a Relation Type of "timegate" pointing at a TimeGate
(URI-G) for the Original Resource, and with a Relation Type
of "timemap" pointing at a TimeMap (URI-T) for the Original
Resource. The state that is expressed by the response is
the state the Original Resource had at the archival datetime
expressed in the "Memento-Datetime" header.
In order to respond to a datetime negotiation request, the server
uses an internal algorithm to select the Memento that best meets the
user agent's datetime preference. The exact nature of the selection
algorithm is at the server's discretion but is intended to be
consistent, for example, always selecting the Memento that is nearest
in time relative to the requested datetime, always selecting the
Memento that is nearest in the past relative to the requested
datetime, etc.
Due to the sparseness of Mementos in most systems, the value of the
"Memento-Datetime" header returned by a server may differ
(significantly) from the value conveyed by the user agent in "Accept-
Datetime".
Although a Memento encapsulates a prior state of an Original
Resource, the entity-body returned in response to an HTTP GET request
issued against a Memento may very well not be byte-to-byte the same
as an entity-body that was previously returned by that Original
Resource. Various reasons exist why there are significant chances
these would be different yet do convey substantially the same
information. These include format migrations as part of a digital
preservation strategy, URI-rewriting as applied by some Web archives,
and the addition of banners as a means to brand Web archives.
When negotiating in the datetime dimension, the regular content
negotiation dimensions (media type, character encoding, language, and
compression) remain available. It is the TimeGate server's
responsibility to honor (or not) such content negotiation, and in
doing so it MUST always first select a Memento that meets the user
agent's datetime preference, and then consider honoring regular
content negotiation for it. As a result of this approach, the
returned Memento will not necessarily meet the user agent's regular
content negotiation preferences. Therefore, it is RECOMMENDED that
the server provides "memento" links in the HTTP "Link" header
pointing at Mementos that do meet the user agent's regular content
negotiation requests and that have a value for the "Memento-Datetime"
header in the temporal vicinity of the user agent's preferred
datetime value.
A user agent that engages in datetime negotiation with a resource
typically starts by issuing an HTTP HEAD, not GET, request with an
"Accept-Datetime" header in order to determine how to proceed. This
strategy is related to the existence of various server implementation
patterns as will become clear in Section 4.
Details about the HTTP interactions involved in datetime negotiation
are provided in Section 4.
3.2. TimeMaps
Figure 3 provides a schematic overview of a successful request/
response chain that shows a user agent obtaining a TimeMap. The
pictorial conventions are the same as the ones used in Figure 2, as
is the scenario. Note that, in addition to a TimeGate, an Original
Resource and a Memento can also provide a link to a TimeMap.
1: UA --- HTTP HEAD/GET ------------------------------------> URI-R
2: UA <-- HTTP 200; Link: URI-G ----------------------------- URI-R
3: UA --- HTTP HEAD/GET ------------------------------------> URI-G
4: UA <-- HTTP 302; Location: URI-M; Vary; Link:
URI-R,URI-T ------------------------------------------> URI-G
5: UA --- HTTP GET URI-T -----------------------------------> URI-T
6: UA <-- HTTP 200 ------------------------------------------ URI-T
Figure 3: A Request/Response Chain to Obtain a TimeMap
Step 1: The user agent that wants to access a TimeMap for the
Original Resource issues an HTTP HEAD/GET against URI-R.
This can be done with or without an "Accept-Datetime" HTTP
header.
Step 2: Irrespective of the use of an "Accept-Datetime" HTTP header
in Step 1, the response from URI-R includes an HTTP "Link"
header with a Relation Type of "timegate" pointing at a
TimeGate (URI-G) for the Original Resource.
Step 3: The user agent issues an HTTP GET request against URI-G.
This can be done with or without an "Accept-Datetime" HTTP
header.
Step 4: Irrespective of the use of an "Accept-Datetime" HTTP header
in Step 1, the response contains an HTTP "Link" header with
a Relation Type of "timemap" pointing at a TimeMap (URI-T).
Step 5: The user agent issues an HTTP GET request against URI-T.
Step 6: The response from URI-T has an entity-body that lists all
Mementos for the Original Resource known to the responding
server, as well as their archival datetimes.
Details about the content and serialization of TimeMaps are provided
in Section 5.
4. Datetime Negotiation: HTTP Interactions
Figure 2 depicts a specific pattern to implement the Memento
framework. Multiple patterns exist, and they can be grouped as
follows:
o Pattern 1 (Section 4.1) - The Original Resource acts as its own
TimeGate
o Pattern 2 (Section 4.2) - A remote resource acts as a TimeGate for
the Original Resource
o Pattern 3 (Section 4.3) - The Original Resource is a Fixed
Resource
o Pattern 4 (Section 4.4) - Mementos without a TimeGate
Details of the HTTP interactions for common cases for each of those
patterns are provided in Sections 4.1 through 4.4. Appendix A
summarizes the use of the "Vary", "Memento-Datetime", and "Link"
headers in responses from Original Resources, TimeGates, and Mementos
for the various patterns. Special cases are described in
Section 4.5. Note that in the following sections, the HTTP status
code of the responses with an entity-body is shown as "200 OK", but a
series of "206 Partial Content" responses could be substituted.
Figure 4 shows a user agent that attempts to datetime negotiate with
the Original Resource http://a.example.org/ by including an "Accept-
Datetime" header in its HTTP HEAD request. This initiating request
is the same for Pattern 1 (Section 4.1) through Pattern 3
(Section 4.3).
HEAD / HTTP/1.1
Host: a.example.org
Accept-Datetime: Tue, 20 Mar 2001 20:35:00 GMT
Connection: close
Figure 4: User Agent Attempts Datetime Negotiation
with Original Resource
4.1. Pattern 1 - The Original Resource Acts as Its Own TimeGate
In this implementation pattern, the Original Resource acts as its own
TimeGate, which means that URI-R and URI-G coincide. Content
management systems and revision control systems can support datetime
negotiation in this way as they are commonly aware of the version
history of their own resources.
The response to this request when datetime negotiation for this
resource is supported depends on the negotiation style it uses (200-
style or 302-style) and on the existence or absence of a URI-M for
Mementos that is distinct from the URI-R of the associated Original
Resource. The various cases are summarized in the below table, and
the server responses for each are detailed in the remainder of this
section.
+-------------------+------------+----------+---------+-------------+
| Pattern | Original | TimeGate | Memento | Negotiation |
| | Resource | | | Style |
+-------------------+------------+----------+---------+-------------+
| Pattern 1.1 | URI-R | URI-R | URI-M | 302 |
| (Section 4.1.1) | | | | |
| Pattern 1.2 | URI-R | URI-R | URI-M | 200 |
| (Section 4.1.2) | | | | |
| Pattern 1.3 | URI-R | URI-R | URI-R | 200 |
| (Section 4.1.3) | | | | |
+-------------------+------------+----------+---------+-------------+
Table 1: Pattern 1
4.1.1. Pattern 1.1 - URI-R=URI-G; 302-Style Negotiation; Distinct URI-M
In this case, the response to the user agent's request of Figure 4
has a "302 Found" HTTP status code, and the "Location" header conveys
the URI-M of the selected Memento. The use of Memento response
headers and links in the response from URI-R=URI-G is as follows:
o The "Vary" header MUST be provided, and it MUST include the
"accept-datetime" value.
o The response MUST NOT contain a "Memento-Datetime" header.
o The "Link" header MUST be provided, and it MUST contain at least a
link with the "original" Relation Type that has the URI-R of the
Original Resource as Target IRI. The provision of other links is
encouraged and is subject to the considerations described in
Section 2.2.
The server's response to the request of Figure 4 is shown in
Figure 5. Note the inclusion of the recommended link to the TimeGate
that, in this case, has a Target IRI that is the URI-R of the
Original Resource.
HTTP/1.1 302 Found
Date: Thu, 21 Jan 2010 00:06:50 GMT
Server: Apache
Vary: accept-datetime
Location:
http://a.example.org/?version=20010320133610
Link: <http://a.example.org/>; rel="original timegate"
Content-Length: 0
Content-Type: text/plain; charset=UTF-8
Connection: close
Figure 5: Response from URI-R=URI-G for Pattern 1.1
In a subsequent request, shown in Figure 6, the user agent can obtain
the selected Memento by issuing an HTTP GET request against the URI-M
that was provided in the "Location" header. The inclusion of the
"Accept-Datetime" header in this request is not needed but will
typically occur as the user agent is in datetime negotiation mode.
GET /?version=20010320133610 HTTP/1.1
Host: a.example.org
Accept-Datetime: Tue, 20 Mar 2001 20:35:00 GMT
Connection: close
Figure 6: User Agent Requests Selected Memento
The response has a "200 OK" HTTP status code, and the entity-body of
the response contains the representation of the selected Memento.
The use of Memento response headers and links in the response from
URI-M is as follows:
o A "Vary" header that includes an "accept-datetime" value MUST NOT
be provided.
o The response MUST include a "Memento-Datetime" header. Its value
expresses the archival datetime of the Memento.
o The "Link" header MUST be provided, and it MUST contain at least a
link with the "original" Relation Type that has the URI-R of the
Original Resource as Target IRI. The provision of other links is
encouraged and is subject to the considerations described in
Section 2.2.
The server's response to the request of Figure 6 is shown in
Figure 7. Note the provision of the required "original", and the
recommended "timegate" and "timemap" links. The former two point to
the Original Resource, which acts as its own TimeGate. The latter
has "from" and "until" attributes to indicate the temporal interval
covered by Mementos listed in the linked TimeMap.
HTTP/1.1 200 OK
Date: Thu, 21 Jan 2010 00:06:51 GMT
Server: Apache-Coyote/1.1
Memento-Datetime: Tue, 20 Mar 2001 13:36:10 GMT
Link: <http://a.example.org/>; rel="original timegate",
<http://a.example.org/?version=all&style=timemap>
; rel="timemap"; type="application/link-format"
; from="Tue, 15 Sep 2000 11:28:26 GMT"
; until="Wed, 20 Jan 2010 09:34:33 GMT"
Content-Length: 23364
Content-Type: text/html;charset=utf-8
Connection: close
Figure 7: Response from URI-M for Pattern 1.1
4.1.2. Pattern 1.2 - URI-R=URI-G; 200-Style Negotiation; Distinct URI-M
In this case, the response to the user agent's request of Figure 4
has a "200 OK" HTTP status code, and the "Content-Location" header
conveys the URI-M of the selected Memento. The use of Memento
response headers and links in the response from URI-R=URI-G is as
follows:
o The "Vary" header MUST be provided, and it MUST include the
"accept-datetime" value.
o The response MUST include a "Memento-Datetime" header. Its value
expresses the archival datetime of the selected Memento.
o The "Link" header MUST be provided, and it MUST contain at least a
link with the "original" Relation Type that has the URI-R of the
Original Resource as Target IRI. The provision of other links is
encouraged and is subject to the considerations described in
Section 2.2.
The server's response to the request of Figure 4 is shown in
Figure 8. Note the provision of optional "memento" links pointing at
the oldest and most recent Memento for the Original Resource known to
the responding server.
HTTP/1.1 200 OK
Date: Thu, 21 Jan 2010 00:06:50 GMT
Server: Apache
Vary: accept-datetime
Content-Location:
http://a.example.org/?version=20010320133610
Memento-Datetime: Tue, 20 Mar 2001 13:36:10 GMT
Link: <http://a.example.org/>; rel="original timegate",
<http://a.example.org/?version=20000915112826>
; rel="memento first"; datetime="Tue, 15 Sep 2000 11:28:26 GMT",
<http://a.example.org/?version=20100120093433>
; rel="memento last"; datetime="Wed, 20 Jan 2010 09:34:33 GMT",
<http://a.example.org/?version=all&style=timemap>
; rel="timemap"; type="application/link-format"
Content-Length: 23364
Content-Type: text/html;charset=utf-8
Connection: close
Figure 8: Response from URI-R=URI-G for Pattern 1.2
In a subsequent request, which is the same as Figure 4 but with HTTP
GET instead of HEAD, the user agent can obtain the representation of
the selected Memento. It will be provided as the entity-body of a
response that has the same Memento headers as in Figure 8.
4.1.3. Pattern 1.3 - URI-R=URI-G; 200-Style Negotiation; No Distinct
URI-M
In this case, the response to the user agent's request of Figure 4
has a "200 OK" HTTP status code, and it does not contain a "Content-
Location" nor a "Location" header as there is no URI-M of the
selected Memento to convey. The use of Memento response headers and
links in the response from URI-R=URI-G is as follows:
o The "Vary" header MUST be provided, and it MUST include the
"accept-datetime" value.
o The response MUST include a "Memento-Datetime" header. Its value
expresses the archival datetime of the selected Memento.
o The "Link" header MUST be provided, and it MUST contain at least a
link with the "original" Relation Type that has the URI-R of the
Original Resource as Target IRI. The provision of other links is
encouraged and is subject to the considerations described in
Section 2.2.
The server's response to the request of Figure 4 is shown in
Figure 9. The recommended "timemap" and "timegate" links are
included in addition to the mandatory "original" link.
HTTP/1.1 200 OK
Date: Thu, 21 Jan 2010 00:06:50 GMT
Server: Apache
Vary: accept-datetime
Memento-Datetime: Tue, 20 Mar 2001 13:36:10 GMT
Link: <http://a.example.org/>; rel="original timegate",
<http://a.example.org/?version=all&style=timemap>
; rel="timemap"; type="application/link-format"
Content-Length: 23364
Content-Type: text/html;charset=utf-8
Connection: close
Figure 9: Response from URI-R=URI-G for Pattern 1.3
In a subsequent request, which is the same as Figure 4 but with HTTP
GET instead of HEAD, the user agent can obtain the representation of
the selected Memento. It will be provided as the entity-body of a
response that has the same Memento headers as in Figure 9.
4.2. Pattern 2 - A Remote Resource Acts as a TimeGate for the Original
Resource
In this implementation pattern, the Original Resource does not act as
its own TimeGate, which means that URI-R and URI-G are different.
This pattern is typically implemented by servers for which the
history of their resources is recorded in remote systems such as Web
archives and transactional archives [Fitch]. But servers that
maintain their own history, such as content management systems and
version control systems, may also implement this pattern, for
example, to distribute the load involved in responding to requests
for current and prior representations of resources between different
servers.
This pattern is summarized in the below table and is detailed in the
remainder of this section. Three cases exist that differ regarding
the negotiation style that is used by the remote TimeGate and
regarding the existence of a URI-M for Mementos that is distinct from
the URI-G of the TimeGate.
+-------------------+------------+----------+---------+-------------+
| Pattern | Original | TimeGate | Memento | Negotiation |
| | Resource | | | Style |
+-------------------+------------+----------+---------+-------------+
| Pattern 2.1 | URI-R | URI-G | URI-M | 302 |
| (Section 4.2.1) | | | | |
| Pattern 2.2 | URI-R | URI-G | URI-M | 200 |
| (Section 4.2.2) | | | | |
| Pattern 2.3 | URI-R | URI-G | URI-G | 200 |
| (Section 4.2.3) | | | | |
+-------------------+------------+----------+---------+-------------+
Table 2: Pattern 2
The response by the Original Resource to the request shown in
Figure 4 is the same for all three cases. The use of headers and
links in the response from URI-R is as follows:
o A "Vary" header that includes an "accept-datetime" value MUST NOT
be provided.
o The response MUST NOT contain a "Memento-Datetime" header.
o The "Link" header SHOULD be provided. It MUST NOT include a link
with an "original" Relation Type. If a preferred TimeGate is
associated with the Original Resource, then it MUST include a link
with a "timegate" Relation Type that has the URI-G of the TimeGate
as Target IRI. If a preferred TimeMap is associated with the
Original Resource, then it SHOULD include a link with a "timemap"
Relation Type that has the URI-T of the TimeGate as Target IRI.
Multiple "timegate" and "timemap" links can be provided to
accommodate situations in which the server is aware of multiple
TimeGates or TimeMaps for the Original Resource.
Figure 10 shows such a response. Note the absence of an "original"
link as the responding resource is neither a TimeGate nor a Memento.
HTTP/1.1 200 OK
Date: Thu, 21 Jan 2010 00:02:12 GMT
Server: Apache
Link: <http://arxiv.example.net/timegate/http://a.example.org/>
; rel="timegate"
Content-Length: 255
Connection: close
Content-Type: text/html; charset=iso-8859-1
Figure 10: Response from URI-R<>URI-G for Pattern 2
Once a user agent has obtained the URI-G of a remote TimeGate for the
Original Resource, it can engage in datetime negotiation with that
TimeGate. Figure 11 shows the request issued against the TimeGate,
whereas Sections 4.2.1 through 4.2.3 detail the responses for various
TimeGate implementation patterns.
HEAD /timegate/http://a.example.org/ HTTP/1.1
Host: arxiv.example.net
Accept-Datetime: Tue, 20 Mar 2001 20:35:00 GMT
Connection: close
Figure 11: User Agent Engages in Datetime Negotiation
with Remote TimeGate
4.2.1. Pattern 2.1 - URI-R<>URI-G; 302-Style Negotiation; Distinct
URI-M
In case the TimeGate uses a 302 negotiation style, the response to
the user agent's request of Figure 11 has a "302 Found" HTTP status
code, and the "Location" header conveys the URI-M of the selected
Memento. The use of Memento response headers and links in the
response from URI-G is as follows:
o The "Vary" header MUST be provided, and it MUST include the
"accept-datetime" value.
o The response MUST NOT contain a "Memento-Datetime" header.
o The "Link" header MUST be provided, and it MUST contain at least a
link with the "original" Relation Type that has the URI-R of the
Original Resource as Target IRI. The provision of other links is
encouraged and is subject to the considerations described in
Section 2.2.
The server's response to the request of Figure 11 is shown in
Figure 12. It contains the mandatory "original" link that points
back to the Original Resource associated with this TimeGate, and it
shows the recommended "timemap" link that includes "from" and "until"
attributes.
HTTP/1.1 302 Found
Date: Thu, 21 Jan 2010 00:02:14 GMT
Server: Apache
Vary: accept-datetime
Location:
http://arxiv.example.net/web/20010321203610/http://a.example.org/
Link: <http://a.example.org/>; rel="original",
<http://arxiv.example.net/timemap/http://a.example.org/>
; rel="timemap"; type="application/link-format"
; from="Tue, 15 Sep 2000 11:28:26 GMT"
; until="Wed, 20 Jan 2010 09:34:33 GMT"
Content-Length: 0
Content-Type: text/plain; charset=UTF-8
Connection: close
Figure 12: Response from URI-G<>URI-R for Pattern 2.1
In a subsequent HTTP GET request, shown in Figure 13, the user agent
can obtain the selected Memento by issuing an HTTP GET request
against the URI-M that was provided in the "Location" header. The
inclusion of the "Accept-Datetime" header in this request is not
needed but will typically occur as the user agent is in datetime
negotiation mode.
GET /web/20010321203610/http://a.example.org/ HTTP/1.1
Host: arxiv.example.net/
Accept-Datetime: Tue, 20 Mar 2001 20:35:00 GMT
Connection: close
Figure 13: User Agent Requests Selected Memento
The response has a "200 OK" HTTP status code. The use of Memento
response headers and links in the response from URI-M is as follows:
o A "Vary" header that includes an "accept-datetime" value MUST NOT
be provided.
o The response MUST include a "Memento-Datetime" header. Its value
expresses the archival datetime of the Memento.
o The "Link" header MUST be provided, and it MUST contain at least a
link with the "original" Relation Type that has the URI-R of the
Original Resource as Target IRI. The provision of other links is
encouraged and is subject to the considerations described in
Section 2.2.
The server's response to the request of Figure 13 is shown in
Figure 14. Note the provision of the recommended "timegate" and
"timemap" links.
HTTP/1.1 200 OK
Date: Thu, 21 Jan 2010 00:02:15 GMT
Server: Apache-Coyote/1.1
Memento-Datetime: Wed, 21 Mar 2001 20:36:10 GMT
Link: <http://a.example.org/>; rel="original",
<http://arxiv.example.net/timemap/http://a.example.org/>
; rel="timemap"; type="application/link-format",
<http://arxiv.example.net/timegate/http://a.example.org/>
; rel="timegate"
Content-Length: 25532
Content-Type: text/html;charset=utf-8
Connection: close
Figure 14: Response from URI-M for Pattern 2.1
4.2.2. Pattern 2.2 - URI-R<>URI-G; 200-Style Negotiation; Distinct
URI-M
In case the TimeGate uses a 200 negotiation style, and each Memento
has a distinct URI-M, the response to the user agent's request of
Figure 11 has a "200 OK" HTTP status code, and the "Content-Location"
header conveys the URI-M of the selected Memento. The use of Memento
response headers and links in the response from URI-G is as follows:
o The "Vary" header MUST be provided, and it MUST include the
"accept-datetime" value.
o The response MUST include a "Memento-Datetime" header. Its value
expresses the archival datetime of the Memento.
o The "Link" header MUST be provided, and it MUST contain at least a
link with the "original" Relation Type that has the URI-R of the
Original Resource as Target IRI. The provision of other links is
encouraged and is subject to the considerations described in
Section 2.2.
The server's response to the request of Figure 11 is shown in
Figure 15.
HTTP/1.1 200 OK
Date: Thu, 21 Jan 2010 00:09:40 GMT
Server: Apache-Coyote/1.1
Vary: accept-datetime
Content-Location:
http://arxiv.example.net/web/20010321203610/http://a.example.org/
Memento-Datetime: Wed, 21 Mar 2001 20:36:10 GMT
Link: <http://a.example.org/>; rel="original",
<http://arxiv.example.net/timemap/http://a.example.org/>
; rel="timemap"; type="application/link-format",
<http://arxiv.example.net/timegate/http://a.example.org/>
; rel="timegate"
Content-Length: 25532
Content-Type: text/html;charset=utf-8
Connection: close
Figure 15: Response from URI-G<>URI-R for Pattern 2.2
In a subsequent request, which is the same as Figure 11 but with HTTP
GET instead of HEAD, the user agent can obtain the representation of
the selected Memento. It will be provided as the entity-body of a
response that has the same Memento headers as Figure 15.
4.2.3. Pattern 2.3 - URI-R<>URI-G; 200-Style Negotiation; No Distinct
URI-M
In case the TimeGate uses a 200 negotiation style, but Mementos have
no distinct URIs, the response to the user agent's request of
Figure 11 has a "200 OK" HTTP status code, and it does not contain a
"Content-Location" nor "Location" header as there is no URI-M of the
selected Memento to convey. The use of Memento response headers and
links in the response from URI-G is as follows:
o The "Vary" header MUST be provided, and it MUST include the
"accept-datetime" value.
o The response MUST include a "Memento-Datetime" header. Its value
expresses the archival datetime of the Memento.
o The "Link" header MUST be provided, and it MUST contain at least a
link with the "original" Relation Type that has the URI-R of the
Original Resource as Target IRI. The provision of other links is
encouraged and is subject to the considerations described in
Section 2.2.
The server's response to the request of Figure 11 is shown in
Figure 16.
HTTP/1.1 200 OK
Date: Thu, 21 Jan 2010 00:09:40 GMT
Server: Apache-Coyote/1.1
Vary: accept-datetime
Memento-Datetime: Wed, 21 Mar 2001 20:36:10 GMT
Link: <http://a.example.org/>; rel="original",
<http://arxiv.example.net/timemap/http://a.example.org/>
; rel="timemap"; type="application/link-format",
<http://arxiv.example.net/timegate/http://a.example.org/>
; rel="timegate"
Content-Length: 25532
Content-Type: text/html;charset=utf-8
Connection: close
Figure 16: Response from URI-G<>URI-R for Pattern 2.3
In a subsequent request, which is the same as Figure 11 but with HTTP
GET instead of HEAD, the user agent can obtain the representation of
the selected Memento. It will be provided as the entity-body of a
response that has the same Memento headers as Figure 16.
4.3. Pattern 3 - The Original Resource is a Fixed Resource
This pattern does not involve datetime negotiation with a TimeGate,
but it can be implemented for Original Resources that never change
state or do not change anymore past a certain point in their
existence, meaning that URI-R and URI-M coincide either from the
outset or starting at some point in time. This pattern is summarized
in the below table. Examples are tweets or stable media resources on
news sites.
+----------+----------------+----------+---------+------------------+
| Pattern | Original | TimeGate | Memento | Negotiation |
| | Resource | | | Style |
+----------+----------------+----------+---------+------------------+
| Pattern | URI-R | - | URI-R | - |
| 3 | | | | |
+----------+----------------+----------+---------+------------------+
Table 3: Pattern 3
Servers that host such resources can support the Memento framework by
treating the stable resource (FixedResource as per
[W3C.gen-ont-20090420]) as a Memento. The use of Memento response
headers and links in responses from such a stable resource is as
follows:
o A "Vary" header that includes an "accept-datetime" value MUST NOT
be provided.
o The response MUST include a "Memento-Datetime" header. Its value
expresses the datetime at which the resource became stable.
Providing this value includes a promise that the resource has not
changed since this datetime and will not change anymore beyond it.
o The "Link" header MUST be provided and MUST have a link with the
"original" Relation Type that has the URI-R of the stable resource
itself as Target IRI.
Figure 17 shows a response to an HTTP HEAD request for the resource
with URI-R http://a.example.org/ that has been stable since March 20,
2009.
HTTP/1.1 200 OK
Date: Thu, 21 Jan 2010 00:09:40 GMT
Server: Apache-Coyote/1.1
Memento-Datetime: Fri, 20 Mar 2009 11:00:00 GMT
Link: <http://a.example.org/>; rel="original"
Content-Length: 875
Content-Type: text/html;charset=utf-8
Connection: close
Figure 17: Response from URI-R=URI-M for Pattern 3
4.4. Pattern 4 - Mementos without a TimeGate
Cases may occur in which a server hosts Mementos but does not expose
a TimeGate for them. This can, for example, be the case if the
server's Mementos result from taking a snapshot of the state of a set
of Original Resources from another server as it is being retired. As
a result, only a single Memento per Original Resource is hosted,
making the introduction of a TimeGate unnecessary. But it may also
be the case for servers that host multiple Mementos for an Original
Resource but consider exposing TimeGates too expensive. In this
case, URI-R and URI-M are distinct, but a TimeGate is absent. This
case is summarized in the below table.
+----------+----------------+----------+---------+------------------+
| Pattern | Original | TimeGate | Memento | Negotiation |
| | Resource | | | Style |
+----------+----------------+----------+---------+------------------+
| Pattern | URI-R | - | URI-M | - |
| 4 | | | | |
+----------+----------------+----------+---------+------------------+
Table 4: Pattern 4
Servers that host such Mementos without TimeGates can still support
the Memento framework by providing the appropriate Memento headers
and links. Their use is as follows for a response from URI-M:
o A "Vary" header that includes an "accept-datetime" value MUST NOT
be provided.
o The response MUST include a "Memento-Datetime" header. Its value
expresses the archival datetime of the Memento.
o The "Link" header MUST be provided, and it MUST have a link with
the "original" Relation Type that has the URI-R of the associated
Original Resource as Target IRI. The provision of other links is
encouraged and is subject to the considerations described in
Section 2.2.
Figure 18 shows a response to an HTTP HEAD request for the Memento
with URI-M
http://arxiv.example.net/web/20010321203610/http://a.example.org/.
Note the use of links: three links have the URI-M of the Memento as
Target IRI and have respective Relation Types "memento", "first", and
"last". This combination indicates that this is the only Memento for
the Original Resource with Target IRI provided by the "original" link
(http://a.example.org/) of which the server is aware. Note also that
such a response does not imply that there is no server whatsoever
that exposes a TimeGate; it merely means that the responding server
neither provides nor is aware of the location of a TimeGate.
HTTP/1.1 200 OK
Date: Thu, 21 Jan 2010 00:09:40 GMT
Server: Apache-Coyote/1.1
Memento-Datetime: Wed, 21 Mar 2001 20:36:10 GMT
Link: <http://a.example.org/>; rel="original",
<http://arxiv.example.net/web/20010321203610/http://a.example.org/>
; rel="first last memento"
; datetime="Wed, 21 Mar 2001 20:36:10 GMT"
Content-Length: 25532
Content-Type: text/html;charset=utf-8
Connection: close
Figure 18: Response from URI-M<>URI-R for Pattern 4
4.5. Special Cases
4.5.1. Original Resource Provides No "timegate" Link
Cases exist in which the response from the Original Resource does not
contain a "timegate" link, including:
o The Original Resource's server does not support the Memento
framework;
o The Original Resource no longer exists, and the responding server
is not aware of its prior existence;
o The server that hosted the Original Resource no longer exists.
In all these cases, the user agent should attempt to determine an
appropriate TimeGate for the Original Resource, either automatically
or interactively supported by the user.
4.5.2. Server Exists but Original Resource No Longer Does
Cases exist in which the server knows that an Original Resource used
to exist, but no longer provides a current representation. If there
is a preferred TimeGate for such a discontinued Original Resource,
then the server MUST include a "timegate" link in responses to
requests for it. This may allow access to Mementos for the Original
Resource even if it no longer exists. A server's response to a
request for the discontinued resource http://a.example.org/pic is
illustrated in Figure 19.
HTTP/1.1 404 Not Found
Date: Thu, 21 Jan 2010 00:02:12 GMT
Server: Apache
Link:
<http://arxiv.example.net/timegate/http://a.example.org/pic>
; rel="timegate"
Content-Length: 255
Content-Type: text/html; charset=iso-8909-1
Connection: close
Figure 19: Response from an Original Resource That No Longer Exists
4.5.3. Issues with Accept-Datetime
The following special cases may occur regarding the "Accept-Datetime"
header when a user agent issues a request against a TimeGate:
o If the value of the "Accept-Datetime" is either earlier than the
datetime of the first Memento or later than the datetime of the
most recent Memento known to the TimeGate, the first or most
recent Memento MUST be selected, respectively.
o If the value of the "Accept-Datetime" does not conform to the
rfc1123-date construction rule of the BNF in Figure 1, the
response MUST have a "400 Bad Request" HTTP status code.
o If a user agent issues a request against a TimeGate and fails to
include an "Accept-Datetime" request header, the most recent
Memento SHOULD be selected.
In all cases, the use of headers and links in responses is as
described for TimeGates in the respective scenarios.
4.5.4. Memento of a 3XX Response
Cases exist in which HTTP responses with 3XX status codes are
archived. For example, crawl-based Web archives commonly archive
responses with HTTP status codes "301 Moved Permanently" and "302
Found", whereas Linked Data archives hold on to "303 See Other"
responses.
If the Memento requested by the user agent is an archived version of
an HTTP response with a 3XX status code, the server's response MUST
have the same 3XX HTTP status code. The use of other Memento headers
is as described for Mementos in the respective scenarios.
The user agent's handling of an HTTP response with a 3XX status code
is not affected by the presence of a "Memento-Datetime" header. The
user agent MUST behave in the same manner as it does with HTTP
responses with a 3XX status code that do not have a "Memento-
Datetime" header.
However, the user agent MUST be aware that the URI that was selected
from the "Location" header of an HTTP response with a 3XX status code
might not be that of a Memento but rather of an Original Resource.
In the latter case, it SHOULD proceed by looking for a Memento of the
selected Original Resource.
For example, Figure 20 shows the response to an HTTP GET request for
http://a.example.org issued on April 11, 2008. This response is
archived as a Memento of http://a.example.org that has as URI-M
http://arxiv.example.net/web/20080411000650/http://a.example.org.
The response to an HTTP GET on this URI-M is shown in Figure 21. It
is a replay of the original response with "Memento-Datetime" and
"Link" headers added, to allow a user agent to understand the
response is a Memento. In Figure 21, the value of the "Location"
header is the same as in the original response; it identifies an
Original Resource. The user agent proceeds with finding a Memento
for this Original Resource. Web archives sometimes overwrite the
value that was originally provided in the "Location" header in order
to point at a Memento they hold of the resource to which the redirect
originally led. This is shown in Figure 22. In this case, the user
agent may decide it found an appropriate Memento.
HTTP/1.1 301 Moved Permanently
Date: Fri, 11 Apr 2008 00:06:50 GMT
Server: Apache
Location: http://b.example.org
Content-Length: 0
Content-Type: text/plain; charset=UTF-8
Connection: close
Figure 20: Response Is a Redirect
HTTP/1.1 301 Moved Permanently
Date: Thu, 21 Jan 2010 00:09:40 GMT
Server: Apache-Coyote/1.1
Memento-Datetime: Fri, 11 Apr 2008 00:06:50 GMT
Location: http://b.example.org
Link: <http://a.example.org>; rel="original",
<http://arxiv.example.net/timemap/http://a.example.org>
; rel="timemap"; type="application/link-format",
<http://arxiv.example.net/timegate/http://a.example.org>
; rel="timegate"
Content-Length: 0
Content-Type: text/plain; charset=UTF-8
Connection: close
Figure 21: Response is a Memento of a Redirect; Leads
to an Original Resource
HTTP/1.1 301 Moved Permanently
Date: Thu, 21 Jan 2010 00:09:40 GMT
Server: Apache-Coyote/1.1
Memento-Datetime: Fri, 11 Apr 2008 00:06:50 GMT
Location:
http://arxiv.example.net/web/20080411000655/http://b.example.org
Link: <http://a.example.org>; rel="original",
<http://arxiv.example.net/timemap/http://a.example.org>
; rel="timemap"; type="application/link-format",
<http://arxiv.example.net/timegate/http://a.example.org>
; rel="timegate"
Content-Length: 0
Content-Type: text/plain; charset=UTF-8
Connection: close
Figure 22: Response is a Memento of a Redirect; Leads to a Memento
4.5.5. Memento of Responses with 4XX or 5XX HTTP Status Codes
Cases exist in which responses with 4XX and 5XX HTTP status codes are
archived. If the Memento requested by the user agent is an archived
version of such an HTTP response, the server's response MUST have the
same 4XX or 5XX HTTP status code. The use of headers and links in
responses is as described for Mementos in the respective scenarios.
For example, Figure 23 shows the 404 response to an HTTP GET request
for http://a.example.org issued on April 11, 2008. This response is
archived as a Memento of http://a.example.org that has as URI-M
http://arxiv.example.net/web/20080411000650/http://a.example.org.
The response to an HTTP HEAD on this URI-M is shown in Figure 24. It
is a replay of the original response with "Memento-Datetime" and
"Link" headers added, to allow a user agent to understand the
response is a Memento.
HTTP/1.1 404 Not Found
Date: Fri, 11 Apr 2008 00:06:50 GMT
Server: Apache
Content-Length: 255
Content-Type: text/plain; charset=UTF-8
Connection: close
Figure 23: Response Is a 404
HTTP/1.1 404 Not Found
Date: Thu, 21 Jan 2010 00:09:40 GMT
Server: Apache-Coyote/1.1
Memento-Datetime: Fri, 11 Apr 2008 00:06:50 GMT
Link: <http://a.example.org>; rel="original",
<http://arxiv.example.net/timemap/http://a.example.org>
; rel="timemap"; type="application/link-format",
<http://arxiv.example.net/timegate/http://a.example.org>
; rel="timegate"
Content-Length: 255
Content-Type: text/plain; charset=UTF-8
Connection: close
Figure 24: Response Is a Memento of a 404
4.5.6. Sticky "Memento-Datetime" and "original" Link for Mementos
A response to an HTTP HEAD/GET request issued against a Memento:
o Includes a "Memento-Datetime" header that entails a promise that
the response is archived, frozen in time. The value of the header
expresses the archival datetime of the Memento.
o Includes a link in the HTTP "Link" header with an "original"
Relation Type that unambiguously points to the Original Resource
associated with the Memento. The Target IRI of the link is the
URI-R of that Original Resource.
Both the "Memento-Datetime" header and the "original" link MUST be
"sticky" in the following ways:
o The server that originally assigns them MUST retain them in all
responses to HTTP requests (with or without an "Accept-Datetime"
request header) that occur against the Memento after the time of
their original assignment, and the server MUST NOT change the
value of the "Memento-Datetime" header nor the Target IRI of the
"original" link.
o Applications that mirror Mementos at a different URI MUST retain
them and MUST NOT change them unless mirroring involves a
meaningful state change. This allows, among others, duplicating a
Web archive at a new location while preserving the value of the
"Memento-Datetime" header and the link with the "original"
Relation Type for the archived resources. For example, when
mirroring, the "Last-Modified" header will be updated to reflect
the time of mirroring at the new URI, whereas the value for
"Memento-Datetime" will be maintained.
4.5.7. Intermediate Resources
An intermediate resource is a resource that issues a redirect to a
TimeGate, to a Memento, or to another intermediate resource, and thus
plays an active role in the Memento infrastructure. Intermediate
resources commonly exist in Web archives on the path from a TimeGate
to an appropriate Memento.
A response of an intermediate resource has an HTTP status code
indicative of HTTP redirection (e.g., 302) and uses Memento headers
and links that allow user agents to recognize that the resource plays
a role in the Memento framework:
o A "Vary" header that includes an "accept-datetime" value MUST NOT
be provided.
o The response MUST NOT include a "Memento-Datetime" header.
o The "Link" header MUST be provided, and it MUST have a link with
the "original" Relation Type that has the URI-R of the associated
Original Resource as Target IRI. Links with "timegate",
"timemap", and "memento" Relation Types are OPTIONAL and, if
provided, MUST pertain to the Original Resource for which the user
agent is trying to obtain a Memento.
A user agent MUST follow a redirection provided by an intermediate
resource; multiple such redirections can be chained.
Consider the case where a user agent follows the "timegate" link
provided in Figure 10 and engages in datetime negotiation with the
assumed TimeGate in the manner shown in Figure 11. But instead of
receiving a response as shown in Figure 12, it receives the one shown
below in Figure 25. Such a response is unambiguously recognizable as
coming from an intermediate resource.
HTTP/1.1 302 Found
Date: Thu, 21 Jan 2010 00:06:50 GMT
Server: Apache
Location:
http://arxiv.example.net/new-timegate/http://a.example.org/
Link: <http://a.example.org>; rel="original"
Content-Length: 0
Content-Type: text/plain; charset=UTF-8
Connection: close
Figure 25: Redirecting Resource Redirects to a TimeGate
4.5.8. Resources Excluded from Datetime Negotiation
When delivering a Memento to a user agent, a Web archive commonly
enhances that Memento's archived content, for example, by including a
banner that provides branding and highlights the archival status of
the Memento. The resources that are involved in providing such
system-specific functionality, many times JavaScript or images, must
be used in their current state.
A server that generally supports datetime negotiation should make
resources that need to be excluded from datetime negotiation
recognizable. Doing so allows a user agent to refrain from
attempting to access a Memento for them. In order to achieve this,
the server SHOULD include a special-purpose link in the HTTP "Link"
header when responding to an HTTP HEAD/GET request to a resource
excluded from datetime negotiation. This link has
"http://mementoweb.org/terms/donotnegotiate" as Target IRI and
"type", defined in [RFC6903], as the value of the "rel" attribute.
Other Memento headers as defined in Section 2.1 SHOULD NOT be
provided.
Figure 26 shows the response to an HTTP HEAD request from a resource
excluded from datetime negotiation.
HTTP/1.1 200 OK
Date: Thu, 21 Jan 2010 00:09:40 GMT
Server: Apache-Coyote/1.1
Link: <http://mementoweb.org/terms/donotnegotiate>; rel="type"
Content-Length: 238
Content-Type: application/javascript; charset=UTF-8
Connection: close
Figure 26: Response to an HTTP HEAD Request from a Resource Excluded
from Datetime Negotiation
5. TimeMaps: Content and Serialization
A TimeMap is introduced to support retrieving a comprehensive list of
all Mementos for a specific Original Resource known to a server. The
entity-body of a response to an HTTP GET request issued against a
TimeMap's URI-T:
o MUST list the URI-R of the Original Resource that the TimeMap is
about;
o MUST list the URI-M and archival datetime of each Memento for the
Original Resource known to the server, preferably in a single
document, or, alternatively in multiple documents that can be
gathered by following contained links with a "timemap" Relation
Type;
o SHOULD list the URI-G of one or more TimeGates for the Original
Resource known to the responding server;
o SHOULD, for self-containment, list the URI-T of the TimeMap
itself;
o MUST unambiguously type listed resources as being Original
Resource, TimeGate, Memento, or TimeMap.
The entity-body of a response from a TimeMap MAY be serialized in
various ways, but the link-value format serialization described here
MUST be supported. In this serialization, the entity-body MUST be
formatted in the same way as the value of an HTTP "Link" header, and
hence MUST comply to the "link-value" construction rule of Section 5.
The Link header field of [RFC5988], and the media type of the entity-
body MUST be "application/link-format" as introduced in [RFC6690].
Links contained in the entity-body MUST be interpreted as follows:
o The Context IRI is set to the anchor parameter, when specified;
o The Context IRI of links with the "self" Relation Types is the
URI-T of the TimeMap, i.e., the URI of the resource from which the
TimeMap was requested;
o The Context IRI of all other links is the URI-R of the Original
Resource, which is provided as the Target IRI of the link with an
"original" Relation Type.
In order to retrieve the link-value serialization of a TimeMap, a
user agent uses an "Accept" request header with a value set to
"application/link-format". This is shown in Figure 27.
GET /timemap/http://a.example.org/ HTTP/1.1
Host: arxiv.example.net
Accept: application/link-format;q=1.0
Connection: close
Figure 27: Request for a TimeMap
If the TimeMap requested by the user agent exists, the server's
response has a "200 OK" HTTP status code and the list of Mementos is
provided in the entity-body of the response. Such a response is
shown in Figure 28.
HTTP/1.1 200 OK
Date: Thu, 21 Jan 2010 00:06:50 GMT
Server: Apache
Content-Length: 4883
Content-Type: application/link-format
Connection: close
<http://a.example.org>;rel="original",
<http://arxiv.example.net/timemap/http://a.example.org>
; rel="self";type="application/link-format"
; from="Tue, 20 Jun 2000 18:02:59 GMT"
; until="Wed, 09 Apr 2008 20:30:51 GMT",
<http://arxiv.example.net/timegate/http://a.example.org>
; rel="timegate",
<http://arxiv.example.net/web/20000620180259/http://a.example.org>
; rel="first memento";datetime="Tue, 20 Jun 2000 18:02:59 GMT"
; license="http://creativecommons.org/publicdomain/zero/1.0/",
<http://arxiv.example.net/web/20091027204954/http://a.example.org>
; rel="last memento";datetime="Tue, 27 Oct 2009 20:49:54 GMT"
; license="http://creativecommons.org/publicdomain/zero/1.0/",
<http://arxiv.example.net/web/20000621011731/http://a.example.org>
; rel="memento";datetime="Wed, 21 Jun 2000 01:17:31 GMT"
; license="http://creativecommons.org/publicdomain/zero/1.0/",
<http://arxiv.example.net/web/20000621044156/http://a.example.org>
; rel="memento";datetime="Wed, 21 Jun 2000 04:41:56 GMT"
; license="http://creativecommons.org/publicdomain/zero/1.0/",
...
Figure 28: Response from a TimeMap
5.1. Special Cases
5.1.1. Index and Paging TimeMaps
Cases exist in which a TimeMap points at one or more other TimeMaps:
o Index TimeMap - A TimeMap can merely point at other TimeMaps and
not list any Mementos itself. This can happen when Mementos are
spread across several archives that share a front-end. An example
is shown in Figure 29.
o Paging TimeMap - The number of available Mementos can require
introducing multiple TimeMaps that can be paged. An example is
shown in Figure 30. Note that a Paging TimeMap contains links to
other TimeMaps but actually also lists Mementos.
In both cases, including the "from" and "until" attributes for
"timemap" links is RECOMMENDED as a means to express the temporal
span of Mementos listed in each TimeMap. Note that TimeMaps obtained
by following a "timemap" link can contain links to further TimeMaps.
<http://a.example.org>;rel="original",
<http://arxiv.example.net/timegate/http://a.example.org>
; rel="timegate",
<http://arxiv.example.net/timemap/http://a.example.org>
; rel="self";type="application/link-format",
<http://arxiv1.example.net/timemap/http://a.example.org>
; rel="timemap";type="application/link-format"
; from="Wed, 21 Jun 2000 04:41:56 GMT"
; until="Wed, 09 Apr 2008 20:30:51 GMT",
<http://arxiv2.example.net/timemap/http://a.example.org>
; rel="timemap";type="application/link-format"
; from="Thu, 10 Apr 2008 20:30:51 GMT"
; until="Tue, 27 Oct 2009 20:49:54 GMT",
<http://arxiv3.example.net/timemap/http://a.example.org>
; rel="timemap";type="application/link-format"
; from="Thu, 29 Oct 2009 20:30:51 GMT"
Figure 29: Index TimeMap
<http://a.example.org>;rel="original",
<http://arxiv.example.net/timegate/http://a.example.org>
; rel="timegate",
<http://arxiv.example.net/timemap/1/http://a.example.org>
; rel="self";type="application/link-format"
; from="Tue, 20 Jun 2000 18:02:59 GMT"
; until="Wed, 09 Apr 2008 20:30:51 GMT",
<http://arxiv.example.net/timemap/2/http://a.example.org>
; rel="timemap";type="application/link-format"
; from="Thu, 10 Apr 2008 20:30:51 GMT"
; until="Tue, 27 Oct 2009 20:49:54 GMT",
<http://arxiv.example.net/timemap/3/http://a.example.org>
; rel="timemap";type="application/link-format"
; from="Thu, 29 Oct 2009 20:30:51 GMT"
; until="Fri, 31 Aug 2012 12:22:34 GMT"
<http://arxiv.example.net/web/20000620180259/http://a.example.org>
; rel="memento";datetime="Tue, 20 Jun 2000 18:02:59 GMT",
<http://arxiv.example.net/web/20000621011731/http://a.example.org>
; rel="memento";datetime="Wed, 21 Jun 2000 01:17:31 GMT",
<http://arxiv.example.net/web/20000621044156/http://a.example.org>
; rel="memento";datetime="Wed, 21 Jun 2000 04:41:56 GMT",
...
Figure 30: Paging TimeMap
5.1.2. Mementos for TimeMaps
A TimeMap itself can act as an Original Resource for which a TimeGate
and Mementos may exist. Hence, the response from a TimeMap could
include a "timegate" link to a TimeGate via which prior TimeMap
versions are available. And, in cases where URI-T=URI-R=URI-G (a
TimeMap is an Original Resource that acts as its own TimeGate), an
"original" link pointing at the TimeMap URI-T would be included.
Therefore, caution is required in cases where a TimeMap for an
Original Resource wants to explicitly express in a "Link" header for
which Original Resource it is a TimeMap. It can do so by including a
"timemap" link that has the URI-R of the Original Resource as Context
IRI and the URI-T of the TimeMap as Target IRI.
Figure 31 shows the response to an HTTP HEAD request against a
TimeMap that has
http://arxiv.example.net/timemap/http://a.example.org as URI-T. This
TimeMap provides information about Mementos for the Original Resource
that has http://a.example.org as URI-R. The response includes an
"original" link pointing to the Original Resource that this TimeMap
is about. Note the use of the "anchor" attribute in this link to
convey the URI-R of that Original Resource.
HTTP/1.1 200 OK
Date: Thu, 21 Jan 2010 00:06:50 GMT
Server: Apache
Link: <http://arxiv.example.net/timemap/http://a.example.org>
; anchor="http://a.example.org"; rel="timemap"
; type="application/link-format"
Content-Length: 0
Content-Type: application/link-format; charset=UTF-8
Connection: close
Figure 31: TimeMap Links to the Original Resource It Is about
6. IANA Considerations
6.1. HTTP Headers
IANA has registered the "Accept-Datetime" and "Memento-Datetime" HTTP
headers (defined in Section 2.1.1) in the "Permanent Message Header
Field Names" registry:
o Header field name: Accept-Datetime
o Applicable protocol: "http" (RFC 2616)
o Status: informational
o Author/Change controller: Herbert Van de Sompel, Los Alamos
National Laboratory, hvdsomp@gmail.com
o Specification document(s): this document
o Header field name: Memento-Datetime
o Applicable protocol: "http" (RFC 2616)
o Status: informational
o Author/Change controller: Herbert Van de Sompel, Los Alamos
National Laboratory, hvdsomp@gmail.com
o Specification document(s): this document
6.2. Link Relation Types
IANA has registered the Relation Types "original", "timegate",
"timemap", and "memento" (defined in Section 2.2) in the "Link
Relation Types" registry:
o Relation Name: original
o Description: The Target IRI points to an Original Resource.
o Reference: this document
o Notes: An Original Resource is a resource that exists or used to
exist, and for which access to one of its prior states may be
required.
o Relation Name: timegate
o Description: The Target IRI points to a TimeGate for an Original
Resource.
o Reference: this document
o Notes: A TimeGate for an Original Resource is a resource that is
capable of datetime negotiation to support access to prior states
of the Original Resource.
o Relation Name: timemap
o Description: The Target IRI points to a TimeMap for an Original
Resource.
o Reference: this document
o Notes: A TimeMap for an Original Resource is a resource from which
a list of URIs of Mementos of the Original Resource is available.
o Relation Name: memento
o Description: The Target IRI points to a Memento, a fixed resource
that will not change state anymore.
o Reference: this document
o Notes: A Memento for an Original Resource is a resource that
encapsulates a prior state of the Original Resource.
7. Security Considerations
Provision of a "timegate" HTTP "Link" header in responses to requests
for an Original Resource that is protected (e.g., 401 or 403 HTTP
response codes) is OPTIONAL. The inclusion of this Link when
requesting authentication is at the server's discretion; cases may
exist in which a server protects the current state of a resource, but
supports open access to prior states and thus chooses to supply this
HTTP "Link" header. Conversely, the server may choose to not
advertise the TimeGate URIs (e.g., they exist in an intranet archive)
for unauthenticated requests.
The veracity of archives and the relationships between Original
Resources and Mementos is beyond the scope of this document. Even in
the absence of malice, it is possible for separate archives to have
different Mementos for the same Original Resource at the same
datetime if the state of the Original Resource was dependent on the
requesting archive's user agent IP address, specific HTTP request
headers, and possibly other factors.
Further authentication, encryption, and other security-related issues
are otherwise orthogonal to Memento.
8. Acknowledgements
The Memento effort is funded by the Library of Congress. Many thanks
to Kris Carpenter Negulescu, Michael Hausenblas, Erik Hetzner, Larry
Masinter, Gordon Mohr, David Rosenthal, Ed Summers, James Anderson,
Tim Starling, Martin Klein, and Mark Nottingham for feedback. Many
thanks to Samuel Adams, Scott Ainsworth, Lyudmilla Balakireva, Frank
McCown, Harihar Shankar, Brad Tofel, Andrew Jackson, Ahmed Alsum, Mat
Kelly, and Ilya Kreymer for implementations that informed the
specification.
9. References
9.1. Normative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC2616] Fielding, R., Gettys, J., Mogul, J., Frystyk, H.,
Masinter, L., Leach, P., and T. Berners-Lee, "Hypertext
Transfer Protocol -- HTTP/1.1", RFC 2616, June 1999.
[RFC5829] Brown, A., Clemm, G., and J. Reschke, "Link Relation
Types for Simple Version Navigation between Web
Resources", RFC 5829, April 2010.
[RFC5988] Nottingham, M., "Web Linking", RFC 5988, October 2010.
[RFC6690] Shelby, Z., "Constrained RESTful Environments (CoRE) Link
Format", RFC 6690, August 2012.
[RFC6903] Snell, J., "Additional Link Relation Types", RFC 6903,
March 2013.
9.2. Informative References
[DATED-URI] Masinter, L., "The 'tdb' and 'duri' URI schemes, based on
dated URIs", Work in Progress, January 2012.
[Fitch] Fitch, K., "Web site archiving - an approach to recording
every materially different response produced by a
website", July 2003,
<http://ausweb.scu.edu.au/aw03/papers/fitch/paper.html>.
[RFC1123] Braden, R., "Requirements for Internet Hosts -
Application and Support", STD 3, RFC 1123, October 1989.
[W3C.REC-aww-20041215]
Jacobs, I. and N. Walsh, "Architecture of the World Wide
Web", December 2004, <http://www.w3.org/TR/webarch/>.
[W3C.gen-ont-20090420]
Berners-Lee, T., "Architecture of the World Wide Web",
April 2009, <http://www.w3.org/2006/gen/ont>.
Appendix A. Use of Headers and Relation Types per Pattern
+-----------------+-----------------+----------+----------+---------+
| Response Header | Pattern | Original | TimeGate | Memento |
| | | Resource | | |
+-----------------+-----------------+----------+----------+---------+
| Vary: | Pattern 1.1 | 1 | 1 | 0 |
| accept-datetime | (Section 4.1.1) | | | |
| | & | | | |
| | Pattern 1.2 | | | |
| | (Section 4.1.2) | | | |
| | | | | |
| | Pattern 1.3 | 1 | 1 | 1 |
| | (Section 4.1.3) | | | |
| | | | | |
| | Pattern 2.1 | 0 | 1 | 0 |
| | (Section 4.2.1) | | | |
| | & | | | |
| | Pattern 2.2 | | | |
| | (Section 4.2.2) | | | |
| | | | | |
| | Pattern 2.3 | 0 | 1 | 1 |
| | (Section 4.2.3) | | | |
| | | | | |
| | Pattern 3 | 1 | NA | 1 |
| | (Section 4.3) | | | |
| | | | | |
| | Pattern 4 | 0 | NA | 1 |
| | (Section 4.4) | | | |
+-----------------+-----------------+----------+----------+---------+
(cont.)
+-----------------+-----------------+----------+----------+---------+
| Response Header | Pattern | Original | TimeGate | Memento |
| | | Resource | | |
+-----------------+-----------------+----------+----------+---------+
| Vary: | | | | |
| Memento- | Pattern 1.1 | 0 | 0 | 1 |
| Datetime | (Section 4.1.1) | | | |
| | & | | | |
| | Pattern 1.2 | | | |
| | (Section 4.1.2) | | | |
| | | | | |
| | Pattern 1.3 | 1 | 1 | 1 |
| | (Section 4.1.3) | | | |
| | | | | |
| | Pattern 2.1 | 0 | 0 | 1 |
| | (Section 4.2.1) | | | |
| | & | | | |
| | Pattern 2.2 | | | |
| | (Section 4.2.2) | | | |
| | | | | |
| | Pattern 2.3 | 0 | 1 | 1 |
| | (Section 4.2.3) | | | |
| | | | | |
| | Pattern 3 | 1 | NA | 1 |
| | (Section 4.3) | | | |
| | | | | |
| | Pattern 4 | 0 | NA | 1 |
| | (Section 4.4) | | | |
+-----------------+-----------------+----------+----------+---------+
(cont.)
+-----------------+-----------------+----------+----------+---------+
| Response Header | Pattern | Original | TimeGate | Memento |
| | | Resource | | |
+-----------------+-----------------+----------+----------+---------+
| Link: | | | | |
| rel="original" | Pattern 1.1 | 0 | 1 | 1 |
| | (Section 4.1.1) | | | |
| | & | | | |
| | Pattern 1.2 | | | |
| | (Section 4.1.2) | | | |
| | | | | |
| | Pattern 1.3 | 1 | 1 | 1 |
| | (Section 4.1.3) | | | |
| | | | | |
| | Pattern 2.1 | 0 | 1 | 1 |
| | (Section 4.2.1) | | | |
| | & | | | |
| | Pattern 2.2 | | | |
| | (Section 4.2.2) | | | |
| | | | | |
| | Pattern 2.3 | 0 | 1 | 1 |
| | (Section 4.2.3) | | | |
| | | | | |
| | Pattern 3 | 1 | NA | 1 |
| | (Section 4.3) | | | |
| | | | | |
| | Pattern 4 | 0 | NA | 1 |
| | (Section 4.4) | | | |
+-----------------+-----------------+----------+----------+---------+
(cont.)
+-----------------+-----------------+----------+----------+---------+
| Response Header | Pattern | Original | TimeGate | Memento |
| | | Resource | | |
+-----------------+-----------------+----------+----------+---------+
| Link: | | | | |
| rel="timegate" | Pattern 1.1 | >=0 | >=0 | >=0 |
| | (Section 4.1.1) | | | |
| | & | | | |
| | Pattern 1.2 | | | |
| | (Section 4.1.2) | | | |
| | | | | |
| | Pattern 1.3 | >=0 | >=0 | >=0 |
| | (Section 4.1.3) | | | |
| | | | | |
| | Pattern 2.1 | >=0 | 0 | >=0 |
| | (Section 4.2.1) | | | |
| | & | | | |
| | Pattern 2.2 | | | |
| | (Section 4.2.2) | | | |
| | | | | |
| | Pattern 2.3 | >=0 | >=0 | >=0 |
| | (Section 4.2.3) | | | |
| | | | | |
| | Pattern 3 | NA | NA | NA |
| | (Section 4.3) | | | |
| | | | | |
| | Pattern 4 | NA | NA | NA |
| | (Section 4.4) | | | |
+-----------------+-----------------+----------+----------+---------+
(cont.)
+-----------------+-----------------+----------+----------+---------+
| Response Header | Pattern | Original | TimeGate | Memento |
| | | Resource | | |
+-----------------+-----------------+----------+----------+---------+
| Link: | | | | |
| rel="timemap" | Pattern 1.1 | >=0 | >=0 | >=0 |
| | (Section 4.1.1) | | | |
| | & | | | |
| | Pattern 1.2 | | | |
| | (Section 4.1.2) | | | |
| | | | | |
| | Pattern 1.3 | >=0 | >=0 | >=0 |
| | (Section 4.1.3) | | | |
| | | | | |
| | Pattern 2.1 | >=0 | >=0 | >=0 |
| | (Section 4.2.1) | | | |
| | & | | | |
| | Pattern 2.2 | | | |
| | (Section 4.2.2) | | | |
| | | | | |
| | Pattern 2.3 | >=0 | >=0 | >=0 |
| | (Section 4.2.3) | | | |
| | | | | |
| | Pattern 3 | >=0 | NA | >=0 |
| | (Section 4.3) | | | |
| | | | | |
| | Pattern 4 | >=0 | NA | >=0 |
| | (Section 4.4) | | | |
| | | | | |
+-----------------+-----------------+----------+----------+---------+
(cont.)
+-----------------+-----------------+----------+----------+---------+
| Response Header | Pattern | Original | TimeGate | Memento |
| | | Resource | | |
+-----------------+-----------------+----------+----------+---------+
| Link: | | | | |
| rel="memento" | Pattern 1.1 | >=0 | >=0 | >=0 |
| | (Section 4.1.1) | | | |
| | & | | | |
| | Pattern 1.2 | | | |
| | (Section 4.1.2) | | | |
| | | | | |
| | Pattern 1.3 | >=0 | >=0 | >=0 |
| | (Section 4.1.3) | | | |
| | | | | |
| | Pattern 2.1 | >=0 | >=0 | >=0 |
| | (Section 4.2.1) | | | |
| | & | | | |
| | Pattern 2.2 | | | |
| | (Section 4.2.2) | | | |
| | | | | |
| | Pattern 2.3 | >=0 | >=0 | >=0 |
| | (Section 4.2.3) | | | |
| | | | | |
| | Pattern 3 | >=0 | NA | >=0 |
| | (Section 4.3) | | | |
| | | | | |
| | Pattern 4 | >=0 | NA | >=0 |
| | (Section 4.4) | | | |
+-----------------+-----------------+----------+----------+---------+
Table 5: Memento Headers
Authors' Addresses
Herbert Van de Sompel
Los Alamos National Laboratory
PO Box 1663
Los Alamos, New Mexico 87545
USA
Phone: +1 505 667 1267
EMail: hvdsomp@gmail.com
URI: http://public.lanl.gov/herbertv/
Michael Nelson
Old Dominion University
Norfolk, Virginia 23529
USA
Phone: +1 757 683 6393
EMail: mln@cs.odu.edu
URI: http://www.cs.odu.edu/~mln/
Robert Sanderson
Los Alamos National Laboratory
PO Box 1663
Los Alamos, New Mexico 87545
USA
Phone: +1 505 665 5804
EMail: azaroth42@gmail.com
URI: http://public.lanl.gov/rsanderson/