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WEBDAV Working Group J. Slein, Xerox Corporation
INTERNET DRAFT J. Davis, Xerox Corporation
<draft-ietf-webdav-collection-reqts-02> July 20, 1998
Expires January 20, 1999
Requirements for Advanced Collection Functionality in WebDAV
Status of this Memo
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Abstract
The base WebDAV protocol [Goland et al., 1998] provides basic
support for collections. It defines a MKCOL method for creating
collections and specifies how other HTTP and WebDAV methods
interact with collections. It supports internal members of
collections, which it defines as members whose URIs are
immediately relative to the URI of the collection.
This draft sets out requirements for more advanced, optional
collection functionality. It extends the base functionality in two
general directions: support for referential members, and support
for ordered collections. A separate WebDAV specification is
expected to define protocol elements providing the functionality
described here.
1 Terminology
The terminology used here follows and extends that in the base
WebDAV protocol specification [Goland et al., 1998].
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Collection
A resource that contains member resources
Member Resource
A resource contained by a collection
Referential Resource (or Reference)
A resource that has no content of its own, but rather is
a reference to another resource
Ordinary Resource
A resource that is not a reference to another resource
Target Resource
The resource referenced by a referential resource
Direct Reference
A reference that has the property that operations on it are
passed through to its target
Indirect Reference
A reference that has the property that operations on it do
not affect its target
Strong Reference
A reference whose referential integrity is guaranteed by the
server
Weak Reference
A reference whose referential integrity is not guaranteed by the
server
Referential Integrity
A server guarantees the integrity of a reference if it ensures
that the reference will not be broken, or enables the
reference's owner to ensure that the reference will not be
broken.
2 Introduction and Rationale
The simple collections that the base WebDAV specification supports
are powerful enough to be widely useful. They provide for the
hierarchical organization of resources, with mechanisms for
creating and deleting collections, copying and moving them,
locking them, adding resources to them and deleting resources from
them, and getting listings of their members. Delete, copy, move,
list, and lock operations can be applied recursively, so that a
client can operate on whole hierarchies with a single request.
Many applications, however, need more powerful collections. There
are two areas in particular where more powerful functionality is
often needed: referential members and ordering. This draft
details the additional functionality that is needed in these two
areas.
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2.1 Referential Resources
Referential resources make it possible for many collections, on the
same or different servers, to share the same resource. Because
the collections share the resource by referencing it, only one
physical copy of the resource need exist, and any changes made in
the resource are visible from all the collections that reference
it.
So, for example, the mathematics department at one university can
create a collection of resources on fractals that contains some
local resources, but also references resources at several other
universities.
A manufacturing company develops and maintains its product
maintenance manuals on the Web, with a separate collection for
each product manual. Each manual is divided into sections, one
section for every product component. Since many of the company’s
products contain some of the same components, many of the product
maintenance manuals have sections in common. Each manual may have
some unique sections, which are internal members of its
collection. But for product components that are common to
multiple products, the manual has a referential member that
references a resource in a shared library.
Strong references and weak references are both useful in different
contexts. Some applications cannot tolerate broken links.
A software development application, for example, must be able to
rely on the integrity of references to component modules. Such
applications must be able to request strong references. Other
applications may want to reference target resources on multiple
servers, where referential integrity cannot be guaranteed, and may
be less concerned about possible broken references. Both strong
references and weak references should eventually be supported by
WebDAV, although the complexities of enforcing referential
integrity make it unlikely that strong references will be supported
in the short term.
Similarly, both indirect and direct references may be useful. Each
of these types of references is implemented in existing systems.
Existing HTTP servers are capable of supporting both types of
references. In effect, indirect references give clients access to
the reference itself, and allow the reference to bear properties.
Direct references, once created, simplify access to the target
resource by hiding from clients the fact that there is a reference
mediating between the client and the target resource. Although it
is desirable for WebDAV to support both indirect and direct
references, the difficulties of supporting direct references make
it unlikely that they will be supported in the short term.
2.2 Ordered Collections
For many applications, it is useful to be able to impose an
ordering on a collection. In the product manual application
above, the sections of each manual may be ordered so that they can
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be printed together as a book. A configuration management
application might use a collection to represent a version series,
in which case the "derives from" relationship might be represented
as an ordering on the collection.
A collection ordering may sometimes be based on property values.
An example of such an ordering is one that is alphabetical by
author’s last name, or one from most recent to oldest last-
modified-date. An ordering need not be based on property values,
however. A professor may order a collection of course readings in
the sequence that makes sense to coordinate them with her lectures,
where there is no property on the member resources that could be
used to create this ordering. This set of requirements is
primarily concerned with orderings that are not based on property
values.
Another useful distinction is between server-maintained and
client-maintained orderings. In server-maintained orderings, the
server enforces the semantics of the ordering by placing each
collection member at the appropriate position in the ordering;
clients cannot alter the ordering. In client-maintained orderings,
the client places each collection member in the ordering based on
its understanding of the semantics of the ordering; the server
does nothing to validate the client's positioning of the member
in the ordering. This set of requirements is concerned only with
client-maintained orderings.
WebDAV already provides tools that could be used for creating and
maintaining ordered collections. For example, using only the base
WebDAV specification, an application could create a WebDAV property
called "Order" on a collection resource. The value of this
property might be a list of the URIs of the collection members.
What the base WebDAV specification does not do is standardize a
single way to represent orderings for collections.
Different applications and services should be able to operate on
the same collection without private agreements about how to manage
and examine its order. To make this possible, there needs to be a
standard way to manipulate and retrieve the order of a collection,
and a standard representation of the ordering.
In any situation where collaborative management of a collection
takes place, and different authoring tools or WebDAV servers might
be used by the collaborators, standardization is important. It is
also important where a different tool may be used to view the
collection from the one that was used to create it.
So for example, two users from different organizations, using
different authoring tools, are working together to create a
collection. One of the tools uses a property on the collection
called "Order" to store an ordering of the collection. The other
tool uses a property on the member called "SequenceNumber". If
each user adds some members to the collection, there will be no
reliable ordering.
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3 Requirements
3.1 Referential Resources
Requirements 3.1.1 - 3.1.7 apply to referential resources in
general. Requirements 3.1.8 - 3.1.10 apply to referential
resources only in the context of collections. Requirements
3.1.11 - 3.1.14 apply only to indirect references. Requirements
3.1.15 - 3.1.17 apply only to direct references. Requirements
3.1.18 - 3.1.20 relate to strong references and guarantees of
referential integrity. The initial release of the WebDAV
collections protocol specification is expected to focus on indirect
references and weak references. It is not expected to satisfy
either the requirements for strong references or the requirements
for direct references.
3.1.1 A single target resource may be referenced by multiple
referential resources.
This is the primary benefit that referential resources bring.
They allow resources to be shared by multiple collections, which
may reside on the same server as the shared resource or on other
servers.
3.1.2 It is possible to create a referential resource.
3.1.3 It is possible to delete a referential resource.
It is important to note that this is a different operation from
deleting the referential resource’s target resource. It must
be possible to delete a reference without deleting its target.
3.1.4 A referential resource is itself a resource.
This makes explicit what is suggested by several of the other
requirements. Requirement 3.1.14 in particular, that indirect
references carry their own properties, forces referential resources
to be resources. WebDAV properties can belong only to resources.
3.1.5 Operations on a target resource do not affect references to it
except as needed to enforce referential integrity.
We do not expect operations on a target to affect references to
it. For indirect references, locking a target does not cause the
indirect references to it to be locked. Modifying the properties
of a target does not cause changes in the properties of indirect
references to it. Etc. For direct references, this issue is moot,
since clients cannot operate on them in any case except to create
them or delete them. Clients cannot view their properties or
headers.
Just as in 3.1.11 passing operations through to the target can be
problematic, so here reflecting operations back to the referencing
resource can be problematic if the referential resource and the
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target resource are on different servers. Issues about what
credentials to use would need to be addressed.
This requirement must be qualified to allow for strong references,
however. For strong references, whether direct or indirect, some
operations on targets must cause changes in the references to them.
For example, if the target of a strong reference is moved, the
reference must change to reflect the new location of the target.
3.1.6 A plain HTTP 1.1 browser should be able to use a referential
resource to access its target.
This minimal level of compatibility with older browsers is needed
to make deployment of WebDAV collection functionality feasible.
References are a new type of resource whose main purpose is to
allow ordinary resources to be shared by multiple collections.
Although WebDAV clients may be needed to create and manipulate
these new resources, older clients should be able to read and
make use of the collections built using references.
3.1.7 There is no requirement that references be acyclic.
From a practical standpoint, servers generally cannot control what
happens on other servers. If a reference R on one server points to
a target T on another server, R's server cannot prevent T from
being changed to point back to R. In addition, there may be
applications where cyclic references are desirable.
3.1.8 A listing of the members of a collection shows both its
ordinary members and its referential members.
A listing of collection members with Depth = 1 or Depth = infinity
shows all members of the collection, whether ordinary or
referential. It follows from the definitions if indirect and
direct references that their behaviors in a listing of collection
members will differ from each other.
For indirect references, the reference itself, and not its target,
will be listed. If Depth = infinity, the listing will not
follow references into any collections to which they may refer.
This is to minimize the risk of being caught in a circle of
references or a long chain of references.
For direct references, the target will be listed. If Depth =
infinity and the target is a collection, the members of the target
collection will also be listed.
3.1.9 Multiple referential resources with the same target may reside
in the same collection.
It is often useful to allow the same resource to be referenced in
a collection multiple times. Typically, these are cases where the
collection is ordered. Consider a case where a collection
represents a book, with one member resource for each page in the
book. A particular graphic needs to appear in several places in
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the book, and so needs to appear in the collection several times.
3.1.10 A reference and its target may both be in the same collection.
In the example just described, the collection might contain the
graphic as an ordinary member, which is also referenced by
referential members of the same collection so that it can appear
multiple times in the book.
3.1.11 Operations on an indirect reference do not affect its target
resource except as needed to enforce referential integrity.
This requirement is really a restatement of the definition of
an indirect reference. There are many reasons for wanting to
support this sort of resource.
Indirect references allow clients to operate on the referential
resource itself. For example, they can store properties on the
reference distinct from those on its target. If requests to the
referential resource were automatically redirected to its target
resource, this would not be possible.
Passing operations through to the target resource exposes
servers to the risks of circular references and long chains of
references that refer to other references.
In addition, passing operations through to the target resource can
be problematic if the referential resource and the target resource
are on different servers. Issues about what credentials to use
would need to be addressed.
This requirement must be qualified to allow for strong references,
however. Strong references are those whose referential integrity
is guaranteed by the server. Requirement 3.1.n makes it possible
that some servers will support strong references. For some
implementations of strong references, operations on the
references may cause changes in their targets. For example, if a
server maintains a list of the strong references to a target in a
property on the target resource, creating or deleting a strong
reference will cause a change in this property of the target.
3.1.12 For any indirect referential resource, it is possible to obtain
the URI of its target resource.
This will allow clients to resolve indirect references themselves
in order to operate on the target resources.
3.1.13 For any resource, it is possible to discover whether it is an
indirect reference.
Since operations on indirect references are not passed through to
their targets, it is important for clients to be able to discover
which resources are indirect references. Then the client can
resolve the references in order to perform operations on their
targets.
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3.1.14 It is possible for an indirect reference to carry its own
properties, distinct from those of its target.
There are properties like "who created this reference" and "when
was this reference created" that clearly belong to the indirect
reference, and not to its target resource, which may be referenced
by many different referential resources.
3.1.15 Operations on a direct reference, except for creation and
deletion of the reference itself, are passed through to its
target resource.
This requirement is really a restatement of the definition of
a direct reference. There are several reasons for wanting to
support this sort of resource.
Direct references simplify operations for clients, hiding from them
the fact that a reference is mediating between their requests and
the target resource.
Many existing systems, including HTTP servers, implement direct
references.
Supporting direct references does introduce issues that make it
unlikely that WebDAV will support them in the short term. Passing
operations through to the target resource exposes servers to the
risks of circular references and long chains of references that
refer to other references. In addition, passing operations through
to the target resource can be problematic if the referential
resource and the target resource are on different servers. Issues
about what credentials to use would need to be addressed.
3.1.16 For any resource, it is possible to discover whether it is a
direct reference.
Since the behavior of direct references is radically different from
the behavior of indirect references, it is important for clients
to be able to discover whether they are operating on a direct
reference. The client must have a way of finding out whether the
properties it sets will be stored on the reference or on its
target, etc.
3.1.17 It is not possible for a client to set or view properties of
a direct reference, distinct from those of its target.
Again, this follows from the definition of a direct reference.
Since all operations except creating the reference and deleting
the reference are passed through to the target, the client can
operate only on properties of the target.
3.1.18 It is possible to request creation of a referential resource
that the server will guarantee to have referential integrity.
For some applications, broken references are unacceptable.
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Breakage may be unavoidable when a target resource resides on a
different server from the referential resource that references it.
Servers can, however, maintain the integrity of referential
resources when they receive MOVE or DELETE requests for target
resources under their own control. For applications that require
referential integrity, it must be possible to specify in a
request for creation of a referential resource that its integrity
be guaranteed. If the server cannot honor this request, it must
decline to create the referential resource. A referential resource
whose integrity is guaranteed by the server is called a strong
reference.
3.1.19 These requirements are silent as to what policy should be used
to ensure referential integrity.
A server guarantees the integrity of a reference if it ensures that
the reference will not be broken, or enables the reference's owner
to ensure that the reference will not be broken.
There are many policies that could be adopted to fulfill this
commitment. For example, a server could refuse to allow a target
to be deleted while there are strong references to the target.
Alternatively, the server could delete the strong references along
with the target. Alternatively, the server could flag the strong
references "Target Deleted" when it deletes the target. Or the
server could notify the owners of all strong references when it
deletes a target, allowing the owners to take whatever action they
wish. These requirements say nothing about what policy should be
used to enforce referential integrity.
3.1.20 It is possible to discover whether a referential resource is a
strong reference or a weak reference.
Knowing whether a referential resource is strong or weak allows a
client to intelligently choose its own strategy for working with
referential resources. For example, if a client does not know
whether a particular reference is strong or weak, it may choose to
recreate that referential resource to be sure of referential
integrity; but if it knows that the reference is strong, it will
not bother to do this.
3.1.21 It is possible to discover whether a resource is the target of
a strong reference.
This requirement insures that both ends of a referential integrity
relationship have the same information available.
3.2 Ordered Collections
3.2.1 Ordering is sufficiently standardized that different
applications and servers can operate on the same ordering
without private agreements.
Applications and servers can apply an ordering to a collection’s
members or discover the ordering of a collection's members without
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private agreements. They can also modify an ordering, at least
with the help of a human user for semantics (See 3.2.3), without
private agreements.
This is the minimum that is needed to support collaborative
management of an ordered collection, where different authoring
tools might be used by the collaborators. It is also what allows
a different tool to be used to view the collection from the one
that was used to create it. Finally, it is needed in order for
servers to list collection members in order, as required by 3.2.6.
3.2.2 A collection is not required to be ordered.
A WebDAV server may support collections without supporting ordered
collections. Even if the server supports ordered collections,
there is no requirement that every collection on that server be
ordered. Since these requirements concern only client-maintained
orderings, clients will decide whether any given collection is
ordered.
The remaining requirements apply only to collections that are
ordered.
3.2.3 The semantics of an ordering are discoverable.
The semantics of an ordering is the principle or rule according to
which the collection members are ordered. This principle must be
discoverable if someone (or some application) other than the one
that created a collection is to be able to add a member to it and
determine where it makes sense to position the new member in the
collection's ordering.
In some cases it may be possible for the semantics to be expressed
in a machine-usable way, so that an application could automatically
position a new member in the ordering. In other cases the
semantics may require a human user to apply them. In either case
they should be discoverable.
3.2.4 Each collection member appears in the ordering exactly once.
It would be possible to support orderings that contain only a
subset of the collection members, or orderings that can contain
a single collection member more than once. It is not necessary,
however, since the same result can be achieved by creating a
new collection with exactly the desired members, and including
each member of the new collection in its ordering exactly once.
This requirement implies that the server will check, whenever a
member is added to an ordering, to make sure that it is not already
in the ordering. It also implies that either the protocol itself
or the server will insure that whenever a new member is added to
a collection, it is also added to the collection ordering.
3.2.5 An ordering does not include any resources that are not members
of the collection.
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The server must insure that when a member is removed from a
collection, it is also removed from the collection's ordering.
3.2.6 When a client requests a listing of the members of a
collection, this listing is returned in the order specified by
the collection.
This requirement frees clients from the burden of applying the
ordering to the member listing.
3.2.7 It is possible to order the members of a collection in a
client-specified way, not necessarily based on property values.
Orderings that are based on property values can be obtained by a
search protocol that supports sorted result sets. This set of
requirements is not concerned with such orderings. It is intended
primarily to support orderings that cannot be obtained by sorting
on property values.
A property is not always available that can serve as the basis for
a desired ordering. For example, a professor may wish to order a
collection of course readings in the sequence that makes sense to
coordinate the readings with her lectures. But the properties of
resources at the Web site are standardized and do not include one
that is appropriate to use for this purpose.
Even if the professor in the example could create a
"sequencenumber" property to use in sorting the collection, this
strategy would be undesirable unless she knew she would not be
adding any readings or changing the order of her lectures once the
values of sequencenumber were set. Inserting a new reading into
the sequence would require updating the sequencenumber property of
each reading that comes after the new one in the sequence. Ordered
collections are intended to support this sort of case, where
sorting based on a property value is impossible or inefficient.
3.2.8 A single ordering may contain both ordinary and referential
resources.
The professor in the previous example may store some readings as
internal resources of the collection, but reference others from
servers at another university. Nevertheless, all the readings
need to be included in the ordering for her students’ use.
4 Acknowledgements
This draft has benefited from thoughtful discussion by Alan Babich,
Steve Carter, Ellis Cohen, Spencer Dawkins, Rajiv Dulepet,
Chuck Fay, Roy Fielding, Yaron Goland, Fred Hitt, Alex Hopmann,
Rohit Khare, Daniel LaLiberte, Steve Martin, Surendra Koduru Reddy,
Sam Ruby, Nick Shelness, John Stracke, John Turner, Jim Whitehead,
and others.
5 References
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[Goland et al., 1998] Y. Y. Goland, E. J. Whitehead, Jr., A.
Faizi, S. R. Carter, D. Jensen, "Extensions for Distributed
Authoring on the World Wide Web - WebDAV." work in progress,
Draft-ietf-webdav-protocol-08. Microsoft, U.C. Irvine, Netscape,
Novell. April, 1998.
6 Authors' Addresses
J. Slein
Xerox Corporation
800 Phillips Road
Webster, NY 14580
Email: slein@wrc.xerox.com
J. Davis
Xerox Corporation
3333 Coyote Hill Road
Palo Alto, CA 94304
Email: jdavis@parc.xerox.com
Expires January 20, 1999
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