NOTE: SOME FUNCTIONALITY EMPLOYS JAVASCRIPT WASD Features and Facilities – WebDAV

WASD Features and Facilities

6.WebDAV

6.1HTTP Methods Supported
6.1.1COPY Restrictions
6.1.2DELETE Restrictions
6.1.3MOVE Restrictions
6.1.4If: Restrictions
6.2WebDAV Configuration
6.2.1WebDAV Set Rules
6.2.2File Naming
6.2.3File-system Access
6.2.4File-system Authorisation
6.2.5Concurrent Authorisation
6.2.6Real-World Example
6.3WebDAV Metadata
6.4WebDAV Locking
6.5Some Wrinkles
6.5.1OS X Finder
6.5.2Gnome/gvfs/Nautilus
6.5.3Dreamweaver
6.6Microsoft Miscellanea
6.6.1Mapping
6.6.2FrontPage Extensions
6.6.3Avoiding Microsoft Property Clutter
6.6.4OPTIONS header "MS-Author-Via: DAV"
6.6.5Repairing broken XP Web Folders
6.6.6Adding a port number to the webfolder-address
6.6.7Adding a number-sign ("#") to the webfolder-address
6.6.8Force Windows XP to use Basic Authentication
6.6.9Microsoft XP Explorer BASIC Authentication
6.6.10Microsoft Windows 7 BASIC Authentication
6.6.11Error 0x800700DF: The file size exceeds the limit allowed and cannot be saved
6.7References

Web-based Distributed Authoring and (not) Versioning for the WASD package.

Effective WASD WebDAV file-space (without significant naming constraints) relies on being hosted on ODS-5 volumes. Behaviour hosting file-space on ODS-2 volumes is untested (though possible provided file naming is constrained to ODS-2 conventions).

WASD WebDAV methods and request headers, etc., are also propagated to the scripting environment and so functionality may be implemented using CGI, CGIplus or RTE based applications.

WASD proxy-serving supports WebDAV methods, header fields, etc.

Generally WebDAV clients are applications other than browsers and so response bodies with human-readable error explanations are unnecessary and consume bandwidth to no good purpose, and so not provided.

File-systems are notoriously latent components relative to the rest of the system (more so with VMS). Any operation to collections (directories) are not going to be atomic and for large collections requiring many sub-operations the potential for the process to be interrupted or otherwise disturbed are enormous. File-systems are not databases amenable to extensive ACID operations.

In addition each file under WebDAV management has the potential for an associated but independent metadata file. This of course means for every DAV-specific resource file activity there is at least a file-system action to check for a metadata file and for some actions such as COPY the potential for an associated but entirely independent file operation.

Of course WebDAV was not intended or designed as a general file-system protocol but one for distributed management of somewhat restricted collections of Web-related resources and so in context probably works well enough.

See sections below on file-system operation method restrictions.

Caution

If using WebDAV in any serious fashion the likes of
$ HTTPD/DO=RESTART=NOW

during server WebDav file-system modifications is a recipe for inconsistency and/or corruption!


6.1HTTP Methods Supported

A list of WebDAV methods, what WASD does with them, and any limitations or restrictions. Some of these are familiar HTTP/1.n methods and other are RFC 4981 specific. Some of the HTTP/1.n methods are overloaded with additional or variant behaviours when used in a WebDAV context. Issues of atomicity with the manipulation of file-system trees containing numbers of individual files makes strict RFC 4918 compliance difficult. See "…Restrictions" below.

Method Description
COPY** Reproduces both single resources (files) and collections (directory trees). Will overwrite files (if specified by the request) but will respond 209 (Conflict) if it would overwrite a tree.
DELETE** deletes files and directory trees
GET just the vanilla HTTP/1.1 behaviour
HEAD ditto
LOCK** see WEBDAV LOCKING below
MKCOL** create a directory
MOVE** Moves (rename or copy) a file or a directory tree. Will 'overwrite' files (if specified by the request) but will respond 209 (Conflict) if it would overwrite a tree.
OPTIONS If WebDAV is enabled and available for the path this reports the WebDAV extension methods
PROPFIND** Retrieves the requested file characteristics, DAV lock status and 'dead' properties for individual files, a directory and its child files, or a directory tree.
PROPPATCH** set and remove 'dead' meta-data properties
PUT Against a WebDAV resource behaves a little differently to historical WASD implementation of PUT.
UNLOCK** see WebDAV locking below
**WebDAV RFC 4918 method

WASD Statistics Reports gather WebDAV related data. Where a method can be used both for vanilla HTTP/1.n and WebDAV purposes it is counted in WebDAV statistics if the request header contains some other indication of a WebDAV activity.

6.1.1COPY Restrictions

Does not comply with the overwrite:T directive for collections (does so for files). Will not preemptively delete the existing tree. It returns a 209 (Conflict) response instead.

COPY does not maintain collection consistent URL namespace if a member resource cannot be moved as required by RFC 4918. It should maintain the source subtree completely uncopied. Instead it is best-effort and continues copying resources until exhausted. This is consistent with file-system behaviour. The RFC 4918 requirement, while not impossible, is fraught with issues inside a file-system.

6.1.2DELETE Restrictions

Deletion of collections is particularly fraught with issues for a file-system. In userland it is almost impossible to predetermine if an individual file in a directory tree is going to resist deletion (due to locking, protections, etc) and in kernel land it's probably no easier. It leaves the undeleted tree hierachy (resource ancestors) intact. This is RFC 4918 compliant however!

So, in the case of WASD WebDAV it's just best-effort and if something down the tree won't disappear, it just reports the failure in the 207 response and carries merrily on through the tree regardless. This IS acceptable WebDAV server behaviour!

6.1.3MOVE Restrictions

Does not comply with the overwrite:T directive for collections (does so for files). Will not currently pre-emptively delete the existing tree. It returns a 209 (Conflict) response instead.

MOVE first attempts to rename the file or directory. This is reasonably efficient, especially for directory trees but obviously only suitable for a target on the same disk volume. If a rename failure is due to a different device it falls back to using a COPY then DELETE in two separate phases. Needless-to-say this is hardly atomic and can lead to inconsistencies between source and target.

MOVE does not maintain collection consistent URL namespace if a member resource cannot be moved as required by RFC 4918. It should maintain the source subtree unmoved. Instead it is best-effort and continues moving resources until exhausted. This is consistent with file-system behaviour. The RFC 4918 requirement, while not impossible, is fraught with issues inside a file-system.

6.1.4If: Restrictions

The conditional "If:" request header field does not have full RFC 4918 support. It implements lock token and etag token processing with parenthetical OR and NOT processing. For unsupported features WATCH reports that the header was not understood and always returns an abort status. WebDAV "If:" processing is an extrodinarily complex kludge for on-the-fly decision making by the server and much of what I have read indicates most clients only ever use extremely simple conditions anyway.

6.2WebDAV Configuration

WebDAV and its features are globally enabled and configured using directives contained in the WASD_CONFIG_GLOBAL configuration file.

Directive Description
[PutMaxKBytes] maximum size of a file (PUT and POST)
[WebDAV] This directive enables and disables WebDAV.
[WebDAVlocking] Enables and disables WebDAV locking.
[WebDAVlockTimeoutDefault] see ‘Locking Timeout’ in 6.4 WebDAV Locking
[WebDAVlockTimeoutMax] see ‘Locking Timeout’ in 6.4 WebDAV Locking
[WebDAVlockCollectionDepth] See ‘Locking Depth’ in 6.4 WebDAV Locking
[WebDAVmetaDir] see 6.3 WebDAV Metadata
[WebDAVquota] Enables and disables RFC 4331 functionality (disk quota reporting).

In addition these and other configurations are provided on a per-path basis using mapping rules.

6.2.1WebDAV Set Rules

WASD request processing rules (see Request Processing Configuration of WASD Configuration) may be used on a per-path basis to modify (some) global configuration settings and provide other WevDAV configuation.

Rule Description
ODS=NAME=8BIT|UTF8|DEFAULT When a file is PUT using WebDAV (or upload), for non-7bit ASCII file names use native ODS-5 8bit syntax (default) or UTF-8 encoded character sequences (see 6.2.2 File Naming)
PUT=MAX=<integer> | * Maximum number of kilobytes file size, if "*" then effectively unlimited (per-path equivalent of the global directive [PutMaxKBytes]).
WEBDAV=[NO]HIDDEN list (default) or hide U*x hidden files (i.e. those with names beginning with period)
WEBDAV=[NO]LOCK allow/apply WebDAV locking to this path
WEBDAV=[NO]PROFILE WebDAV access according to SYSUAF profile
WEBDAV=[NO]PROP allow/apply WebDAV 'dead' property(ies) to this path
WEBDAV=[NO]PUT=LOCK a resource must be locked before a PUT is allowed
WEBDAV=[NO]READ WebDAV methods allowed read this tree
WEBDAV=[NO]SERVER WebDAV access as server account (best effort)
WEBDAV=[NO]WINPROP when NOWINPROP windows properties are ignored and emulated
WEBDAV=[NO]WRITE WebDAV methods allowed write to this path (implied read)
WEBDAV=LOCK=TIMEOUT=DEFAULT= hh:mm:ss
WEBDAV=LOCK=TIMEOUT=MAX= hh:mm:ss
WEBDAV=META=DIR= per-path equivalent of global [WevbDAVmetaDir] (see 6.3 WebDAV Metadata)

An essential function of the path setting rules is for specifying which paths in server Web-space are allowed to be accessed using the WebDAV protocol and what sort of access (read, write, etc.) that path is allowed.

6.2.2File Naming

By default files that are PUT via WebDAV (or upload) support the ISO Latin-1 character set. ASCII and non-7-bit file names use the native ODS-5 syntax. Where character sets other than ISO Latin-1, or where compatibility with other WebDAV implementations is desired (e.g. Apache), a path can be set to allow file names supplied using UTF-8 sequences.

For example, the English language word "naïve", having a diaeresis mark over the "i" character (indicating it is pronounced separately from the preceding vowel) is commonly respresented using the 8 bit character 0xEF, or as the two byte UTF-8 sequence 0xC3AF. This word if used as the file name with a type (extension) of ".TXT" by default would have the sequence of 8-bit characters

0x6E 0x61 0xEF 0x76 0x65 0x2e 0x54 0x58 0x54
and if the path had been set ods=name=utf8 the sequence would be
0x6E 0x61 0xC3 0xAF 0x76 0x65 0x2E 0x54 0x58 0x54

"Index of" (directory) listings will honour a path set ods=name=utf8 and make the listing character set UTF-8 resulting in a browser correctly rendering the name (WebDAV listings are by definition UTF-8).

File Name Ambiguity

While files and directories created via WebDAV will have a consistent naming schema applied those created by applications or manual operation on the VMS system can result in files that are not accessible with WebDAV.

For example the file name

This^_is^_an^_EXAMPLE^.txt.;1
would be presented to the client as
This is an EXAMPLE.txt
which when provided in a URL as
This%20is%20an%20EXAMPLE.txt
and translated from that URL into the file specification
This^_is^_an^_EXAMPLE.txt;1
of course will not be able to be accessed.

In addition, the two files

This^_is^_an^_EXAMPLE.txt;1 This^_is^_an^_EXAMPLE^.txt.;1
are distinct in the file-system, independently parsed from the directory structure, would be presented to the client as consecutive entries having the same name, with only the accessible file name actually available.
This is an EXAMPLE.txt This is an EXAMPLE.txt

To avoid this situation a potentially ambiguous file name containing an escaped period and no type (extension) is ignored by directory listings and WebDAV property lists. When an ambiguous file name is detected it is reported in WATCH reports.

Avoid "Interesting" File Names

While most of these are corner-cases it is best to try and avoid interesting file names that can challenge the rather convoluted VMS file-system environment. Inaccessible file names cannot of course be deleted or renamed via WebDAV and may result in directory (folder) deletion problems. These situations generally require manual intervention.

6.2.3File-system Access

Is controlled using the mapping rules:

Rule Description
WEBDAV=PROFILE access using request SYSUAF-authenticated security profile
WEBDAV=WRITE unconditional permission to read/write
WEBDAV=READ unconditional permission to read
WEBDAV=SERVER access using server account permissions

All access by WebDAV operations must have at least one set against the path. If access is permitted by one of the above settings SYSPRV is enabled to allow that access using the server account. Therefore files and directories should have a SYSTEM:READ+WRITE+EXECUTE+DELETE protection or equivalent ACL permissions, or the access may fail totally or in some part of a supposedly atomic action.

These file-system access settings are applied in the order listed above. That is, if a path successively has one or more of the above settings applied during rule processing, when it comes to applying those access controls, SYSUAF profile is applied, then if no profile SETing access to read/write, then to read-only, then access via the server account.

In addition WebDAV access requires an authorisation rule against each path.

6.2.4File-system Authorisation

All access by WebDAV operations must have one set against the path.

All WebDAV access is a combination of WASD_CONFIG_MAP path setting and WASD_CONFIG_AUTH authorisation permissions. The least permissive of the two overrides the more. The combination of an authorisation rule and a path mapping rule mitigates the chance of opening unintended access into the file-system.

These is the test-bench environment used during development:

# WASD_CONFIG_MAP pass /dweb/* /dweb/* ods=5 webdav=write webdav=nowinprop # WASD_CONFIG_AUTH ["KLAATU"=WASD_VMS_RW=id] /dweb/* r+w

Note that WebDAV read/write access is a combination of the mapping and the authorisation rule (mapping WEBDAV=READ overrides authorisation read+write). Expect complications with Microsoft environments.

For test-benching you could avoid authorisation issues completely with:

# WASD_CONFIG_AUTH [world] /dweb/* r+w

6.2.5Concurrent Authorisation

A common requirement is to provide concurrent general access and authorised WebDAV acccess to the same Web-space. This is accomplished by using two paths mapped into the same file-system space, the general access (non-authorised) path, and a WebDAV (authorised) path. The WebDAV client uses the authorised path and can then apply WebDAV methods to maintain the resources.

# WASD_CONFIG_MAP pass /web/* /web/* ods=5 pass /davweb/* /web/* ods=5 webdav=profile webdav=nowinprop # WASD_CONFIG_AUTH ["KLAATU"=WASD_VMS_RW=id] /davweb/* r+w

6.2.6Real-World Example

The following configuration is taken from a site using WebDAV to allow users to manage their Web presence. The user mapping is a fairly standard configuration for VMS accounts (see Mapping User Directories (tilde character ("~")) of WASD Configuration). User Web areas are in the [.WWW] subdirectory of the account home area.

# WASD_CONFIG_MAP # general and WebDAV access (order is important) user /~*/dav/* /*/www/* webdav=profile notepad=webdav user /~*/dav /*/www webdav=profile notepad=webdav if (pass:-1 && notepad:webdav) pass /~*/dav/* /d1/*/www/* if (pass:-1 && notepad:webdav) pass /~*/dav/* /d2/*/www/* user /~*/* /*/www/* dir=access if (pass:-1) pass /~*/* /d1/*/www/* if (pass:-1) pass /~*/* /d2/*/www/*

The four WebDAV access rules are located before the three general user access rules. The WebDAV rules are more specific. The first USER rule maps subdirectories - and the parent if a trailing slash is included. The second USER rule maps the parent directory for user agents that do not include trailing slash on their directory specifications (most it seems).

The second pair of rules reverse-maps the VMS file-system specifications represented by the result (right side) of the PASS rule into the path represented by the template (left side) of the PASS rule. Mapping from file-specifications to paths is necessary because of the way the PROPFIND method searches the file-system and then reports its results to the client as URLs.

The use of the notepad rule with a string of "webdav" (the actual string is not significant as long as it is unique within the rules) is used to conditionally process the reverse-mapping rules. They will be applied only to the requests originally mapped by the USER rules. The pass:-1 ensures the rules are only applied during reverse-mapping, not during request mapping.

The fifth rules maps general Web access to the user area. Remember, web access is to a user home subdirectory [.WWW].

The sixth and seventh rules reverse-map the VMS file-system specifications for the general USER rules for similar reasons to those described above. Why two? The user directories occur across two disk volumes and so each must be reverse-mapped.

# WASD_CONFIG_AUTH ["VMS username/password"=WASD_VMS_RW=id] /~*/dav/* read+write,profile,https: /~*/dav read+write,profile,https:

As noted above, WASD WebDAV requires both mapping and authorization rules (even for "world" - or non-authenticated - access).

In this case authorisation is only required for WebDAV access. There are two rules. The first authorises subdirectories and parent directories for agents that supply a trailing slash. The second for agents that do not provide a trailing slash.

Why use …

… two rules for each location? Why

user /~*/dav/* /*/www/* user /~*/dav /*/www
rather than
user /~*/dav* /*/www*
which would accomplish a similar result?

For finer control. The first only matches requests with a path of "/~user/dav/subdir/" and "/~user/dav", whereas the latter matches "/~user/dav/subdir/" and "/~user/dav" and "/~user/david/" and "/~user/davros", etc.

6.3WebDAV Metadata

Metadata is data (information) about data. WebDAV uses the concept of a resource property. There are "live" properties and "dead" properties. Essentially the live properties are the dynamic characteristics of a file-system object represented by creation and modification date-times, object size, etc. WebDAV dead properties are those supplied by WebDAV clients as XML entities and stored associated with the particular WebDAV object, in WASD's case the file-system object (file or directory). WASD also uses the file metadata to store resource lock data (see 6.4 WebDAV Locking).

Metadata Files

WASD manages resource metadata using a separate file associated by name with the data file. This is done for reasons of programmatic simplicity and for the convenience of any command-line owner or sysadmin of the resources. No specialised tools are required. This metadata file can be stored in one of three locations.

  1. By default, WASD uses a metadata file in the same directory and the same name with "__wasdav" appended to the extension (type). All non-WebDAV WASD functionality ignores "*.*__wasdav;" files (e.g. directory listing, file GET). Of course other applications (e.g. directory listing) do not.
    $ DIRECTORY/SIZE/DATE 01234*.* Directory WEB:[DAVweb] 01234^.56789.TXT;1 0.50KB 8-JUN-2009 23:07:19.26 01234^.56789.txt__wasdav;1 1KB 19-JUN-2009 03:20:34.50 0123456789.TXT;1 0.50KB 8-JUN-2009 23:06:59.16 0123456789.txt__wasdav;1 1KB 19-JUN-2009 03:19:14.67
  2. An alternate but still local location, is in the WASD_CONFIG_GLOBAL [WebDAVmetadir] globally specified, or per-path SET /path webdav=meta=dir directives. If specified as a subdirectory the metadata file is stored in a subdirectory of the data file directory using the same name with "__wasdav" appended to the extension (type). This is owned by the owner of the parent directory. The metadata directory does not appear in WASD WebDAV or file system listings. Choose something unique as the name cannot be used elsewhere in WebDAV space.

    For example, with the global directive

    # WASD_CONFIG_GLOBAL [WebDAVmetaDir] [.^.dav]
    specifying a subdirectory with a name containing a leading period (i.e. a U*x hidden file), the data files
    Directory WEB:[DAVweb] 01234^.56789.TXT;1 0.50KB 8-JUN-2009 23:07:19.26 0123456789.TXT;1 0.50KB 8-JUN-2009 23:06:59.16
    would have the associated metadata files
    Directory WEB:[DAVweb.^.dav] 01234^.56789.txt__wasdav;1 1KB 19-JUN-2009 03:20:34.50 0123456789.txt__wasdav;1 1KB 19-JUN-2009 03:20:24.77
  3. The final alternative uses the same directives as above but specifies a full directory path. In this case WebDAV metadata is stored completely separately from the data. This can be anywhere in available file-space. The web server account requires full access to this directory, with the simplest method of ensuring this to give ownership to the directory. This global location is only suitable for ODS-5 volumes. Sixteen hexadecimal named subdirectories are used to partition metadata files with file names generated using data file full name escaped using extended parse syntax. Using this approach a sysadmin can easily locate specific metadata files if required.

    For example, with the global directive

    # WASD_CONFIG_GLOBAL [WebDAVmetaDir] DKA0:[WASDAVMETA]
    the data files
    Directory WEB:[DAVweb] 01234^.56789.TXT;1 0.50KB 8-JUN-2009 23:07:19.26 0123456789.TXT;1 0.50KB 8-JUN-2009 23:06:59.16
    would have the associated metadata files
    Directory DKA0:[WASDAVMETA.06] web^:^[davweb^]01234^.56789.txt__wasdav;1 1KB 19-JUN-2009 03:21:34.40 web^:^[davweb^]0123456789.txt__wasdav;1 1KB 19-JUN-2009 03:21:14.67
Directory Metadata

The metadata file associated with a directory is stored in the same metadata location as files contained by that directory (not in the metadata location associated with the parent directory that contains the directory file). This metadata file is named ".DIR__wasdav" (i.e. no name, just an extension), with the following example illustrating how this would appear in each of the three metadata locations, for a subdirectory named "New Folder".

WEB:[DAVweb.New^_Folder].DIR__wasdav;1 WEB:[DAVweb.New^_Folder.^.dav].DIR__wasdav;1 DKA0:[WASDAVMETA.06]web^:^[davweb^.new^_folder^].dir__wasdav;1
Metadata XML

All metadata is stored using XML. Multiple XML data can be contained in a single metadata file. Each can be individually manipulated by a WebDAV client. The property elements are stored as-supplied by the client. It is presumed that their XML well-formedness is guaranteed by the original request XML parsing. Metadata files have content similar to the following:

$ TYPE 0123456789.txt__wasdav;1 <?xml version="1.0" encoding="UTF-8"?> <WASDAV:data xmlns:WASDAV="WASD.VMS.WebDAV" updated="2009-06-18T17:49:14Z 19-JUN-2009 03:19:14"> <WASDAV:lock token="opaquelocktoken:4D462D61B0E0427F19B425EBEEF2CFF6" depth="0" type="write" scope="exclusive" timeout="Second-86400" expires="2009-06-20T22:49:14Z 21-JUN-2009 08:19:14"> <WASDAV:owner><NS:href xmlns:NS="DAV:">MGD</NS:href></WASDAV:owner> </WASDAV:lock> <WASDAV:prop> <NS:one xmlns:NS="two">three</NS:one> </WASDAV:prop> <WASDAV:prop> <NS:four xmlns:NS="five">six</NS:four> </WASDAV:prop> <WASDAV:prop> <NS:seven xmlns:NS="eight">nine</NS:seven> </WASDAV:prop> </WASDAV:data>

This metadata example contains four properties; an exclusive write lock owned by "MGD" and three set by a client in three different (contrived) namespaces.

Metadata should not be edited manually ...

… unless you really, really know what you're doing. WASD deletes meta-data files it does not understand or otherwise considers damaged (with some resultant loss of information). Of course you can, for example to remove a lock on a resource, but you run the (small) risk of a "lost-update" and other complications. And, again of course, full metadata can be deleted at the command-line.
Microsoft Metadata

An example of such property meta-data generated by a Microsoft Windows (not Internet) Explorer client (example wrapped for presentation):

<?xml version="1.0" encoding="UTF-8"?> <WASDAV:data xmlns:WASDAV="WASD.VMS.WebDAV" updated="2007-07-23T01:39:11Z"> <WASDAV:prop> <NS:Win32CreationTime xmlns:NS="urn:schemas-microsoft-com:"> Tue, 26 Jun 2007 02:00:48 GMT</NS:Win32CreationTime> </WASDAV:prop> <WASDAV:prop> <NS:Win32LastAccessTime xmlns:NS="urn:schemas-microsoft-com:"> Mon, 23 Jul 2007 01:52:32 GMT</NS:Win32LastAccessTime> </WASDAV:prop> <WASDAV:prop> <NS:Win32LastModifiedTime xmlns:NS="urn:schemas-microsoft-com:"> Mon, 23 Jul 2007 01:52:32 GMT</NS:Win32LastModifiedTime> </WASDAV:prop> <WASDAV:prop> <NS:Win32FileAttributes xmlns:NS="urn:schemas-microsoft-com:"> 00000020</NS:Win32FileAttributes> </WASDAV:prop> </WASDAV:data>

Every file written or modified by Windows Explorer generates this sort of metadata which is then stored in an associated metadata file and read each time the data file is accessed. Some might consider this unnecessary clutter in most circumstances (I do). WASD allows this metadata to be suppressed and equivalent data generated (fudged) from file live properties when accessed - often sufficient for purpose. To suppress the actual processing of Windows Explorer metadata set a path using the WEBDAV=NOWINPROP in WASD_CONFIG_MAP.

set /webdav/* webdav=NOwinprop

6.4WebDAV Locking

For efficiency and functionality considerations WebDAV locking may be enabled and disabled (default) as global functionality using the WASD_CONFIG_GLOBAL [WebDAVlocking] directive. Additionally the WEBVDAV=[NO]LOCKING path SETing can configure this on a per-path basis.

Write Access Only

In common with RFC 4918 WASD WebDAV locking controls only write access. Both exclusive and shared locks are provided. Locking applies to the DELETE, LOCK, MKCOL, MOVE, PROPPATCH, PUT, and UNLOCK methods.

Locking Depth

WASD WebDAV locking checks parent collections to a configurable depth. WASD_CONFIG_GLOBAL directive [WebDAVlockCollectionDepth] where the default (0 or 1) checks only WebDAV locking on files, 2 WebDAV locking on the parent directory, 3 on the grandparent, 4 the great-grandparent, etc. Of course each level can add significant latency (and expense) to some operations.

Lock Depth 0

Real world experience has suggested locking depth should be maintained at the default 0 (or 1), allowing the client explicitly to manage and negotiate hierarchies of locking if required. WebDAV clients (probably correctly) assume a minimally compliant and relatively unsophisticated WebDAV server.

For more information on locking operation and implementation details see the DAVLOCK.C module and for meta-data in general the DAVMETA.C module.

Locking Timeout

When a client locks a resource it can specify the period for the lock. In the absence of such a specification WASD will apply the [WebDAVlockTimeoutDefault] value (by default 0-01:00:00 - one hour). WASD also applies the [WebDAVlockTimeoutMax] maximum lock period (by default 7-00:00:00 - one week). When the maximum period expires the lock is no longer valid.

VMS DLM Locking

WASD uses VMS locking to queue and arbitrate access to WebDAV resources and meta-files.

Two lock modes are employed; 'exclusive', when changes are to be made to the resource or its meta-data, and 'concurrent read', when resource and/or meta-data are only to be read. Concurrent read locks are compatible, but an exclusive queued against a resource currently being read waits, as does a read against a current exclusive.

WASD takes out its own VMS DLM locks on resources (files and directories) before beginning any WebDAV operation, and these prevent conflict with other WASD WebDAV operations on the same system or cluster, but RMS does not use these nor does WASD use RMS locks (except when actually acessing the file-system of course), and so there is potential for interactions between the two domains (in common with general file-system actvities). WASD WebDAV deliberately does not try to block file-system actions from other processing (except where RMS locks/blocks). Its own DLM locking is purely for internal purposes.

6.5Some Wrinkles

Some application/environment-specific considerations when using WASD WebDAV. Please report any you encounter for future inclusion in this section. Also see 6.6 Microsoft Miscellanea immediately below.

6.5.1OS X Finder

OS X Finder requires [WebDAVlocking] enabled for read/write access, otherwise access will be read-only.

6.5.2Gnome/gvfs/Nautilus


As at publication, Gnome/gvfs/Nautilus has quite a number of behavioural problems with associated Bugzilla items. Don't expect it to behave well! This has been my experience.

6.5.3Dreamweaver

Dreamwever 8 (at least, the only version I have access to) insists on using a URI with a trailing "/./" occasionally (I'm guessing to specify the "current" directory - cf. "/../", or "parent" syntax). Just absorb this internally using an appropriate mapping internal redirect.

redirect /webdav/**/./ /webdav/*/

6.6Microsoft Miscellanea

A cornucopia of of minor and major considerations!

much of the following is pre- Windows 10/11

and relates to Windows 7, Windows XP and possibly earlier.
Windows 10/11 WebDAV in general is much better behaved and reliable.
The following information continues to be included for historical reference only.

Microsoft approach WebDAV in their own inimitable fashion. Hence Microsoft agents, considering their ubiquity, including their mini-redirector are specifically looked for and functionality modified to accomodate them.

The following is a list topics/issues that were encountered/investigated during WASD WebDAV development. They may or may not be applicable to your site.

Some general references:

DOS/Windows command-line network configuration:

C:\> NET USE Z: http://the.host.name/folder/ C:\> NET USE Z: /DELETE

6.6.1Mapping

Microsoft agents (at least) seem to request the server OPTIONS of the server root regardless of any path provided with the NET USE or other network drive mapping employed. To selectively map such a request into a path that has WebDAV enabled on it (and will therefore respond with the DAV-related options) use a conditional redirect rule. For example

if (webdav:) if (request-method:OPTIONS) redirect / /dav-path/ endif
or if only required for MS agents then something more specific
if (webdav:MSagent) if (request-method:OPTIONS) redirect / /dav-path/ endif

Subsequent rules will probably be required to map typeless directory requests to the actual directory required.

redirect /dav-path /dav-path/ pass /dav-path/* /dav_root/* webdav=read

6.6.2FrontPage Extensions

Requests containing paths /_vti_inf.html and /_vti_bin/* are related to FrontPage protocol discovery probing. They can be adequately handled using a mapping rule lsuch as the following:

pass /_vti_* "404 Not an MS platform!"

6.6.3Avoiding Microsoft Property Clutter

See ‘Microsoft Metadata’ in 6.3 WebDAV Metadata.

6.6.4OPTIONS header "MS-Author-Via: DAV"

If the server's response does not contain an MS-Author-Via header, the OLE DB Provider for Internet Publishing loads the WEC and WebDAV protocol drivers one at a time (WEC first, WebDAV second) and asks them, "Do you know how to handle this URL?", specifying the exact URL passed in by the client. The first protocol which responds "yes" is selected. If neither protocol driver responds "yes" then the method which triggered the automatic driver selection (usually IBindResource::Bind) fails with an OLE DB Provider for Internet Publishing specific error code IPP_E_SERVERTYPE_NOT_SUPPORTED.

6.6.5Repairing broken XP Web Folders

Some Windows XP machines have a broken Web Folders installation. Microsoft includes a Web Folders repair utility built in to Windows to correct the problem. Use the following steps to fix the problem:

  1. Click on the "Start" menu in the lower left corner, and select "Run..."
  2. Type in "webfldrs.msi" and click the "OK" button.
  3. Click on the "Select reinstall mode" button.
  4. Select *ALL* of the checkboxes *except* for the second one ("Reinstall only if file is missing").
  5. Click on the "OK" button.
  6. Click on the "Reinstall" button.
  7. After the reinstallation is complete, reboot the computer.

6.6.6Adding a port number to the webfolder-address

Attach the port-number (80 by default) to the http-address you enter into the field of the "My Network Places"-assistant. As you can see in the following image and the linked screenshot, this will force Windows XP to use the "Microsoft Data Access Internet Publishing Provider DAV 1.1" mechanism instead of "Microsoft-WebDAV-MiniRedir/5.1.2600".

6.6.7Adding a number-sign ("#") to the webfolder-address

It is also possible to add the number sign # to the http-address you enter into the field of the "My Network Places"-assistant. As you can see in the following image and the linked screenshot, this will also force Windows XP to use the "Microsoft Data Access Internet Publishing Provider DAV 1.1" mechanism instead of "Microsoft-WebDAV-MiniRedir/5.1.2600".

http://the.host.name/folder#

6.6.8Force Windows XP to use Basic Authentication

There is a third way to get this working from the client-site. As described in the Microsoft Knowledge Base, Article ID: 841215, Windows XP disables "Basic Auth" in his "Microsoft-WebDAV-MiniRedir/5.1.2600"-mechanism by default for security reasons. See description below.

6.6.9Microsoft XP Explorer BASIC Authentication

You can enable BasicAuth by adding the following registry key and setting it to a non-zero value:

HKEY_LOCAL_MACHINE\SYSTEM \CurrentControlSet\Services\WebClient\Parameters\UseBasicAuth (DWORD)

If you delete the registry key or set it to 0, the behavior reverts to the default, or disabling the use of BasicAuth.

Disabling Basic Authentication over a clear channel:

Because the DAVRdr is part of the remote file-system stack, a computer is open to attack whenever an attempt is made to remotely access files. Although the threat to other applications that use the Internet APIs is less severe than it is for the DAVRdr, a similar attack is possible whenever an application (or the user) attempts to access a URL. For this reason, WinInet is exposing the mechanism by which the DAVRdr disables BasicAuth to other users of the Internet APIs.

With Windows XP Service Pack 2, there are two ways to block the use of Basic Authentication over clear (or unencrypted) channels:

Create the following registry key and set it to a non-zero value.

HKEY_CURRENT_USER\SOFTWARE\Microsoft\Windows\CurrentVersion \InternetSettings\DisableBasicOverClearChannel (DWORD)

This prevents WININET from attempting to use BasicAuth unless the channel is secured (HTTPS or SSL).

The application can disable the use of BasicAuth for its connections by setting the AUTH_FLAG_DISABLE_BASIC_CLEARCHANNEL flag (0x4) in the value supplied in the call to InternetSetOption using INTERNET_OPTION_AUTH_FLAGS.

AND THEN RESTART WINDOWS ***

6.6.10Microsoft Windows 7 BASIC Authentication

You can enable BasicAuth by setting the following registry key to the value 3 and restarting the WebClient service:

HKEY_LOCAL_MACHINE\SYSTEM \CurrentControlSet\Services\WebClient\Parameters\BasicAuthLevel (DWORD)

6.6.11Error 0x800700DF: The file size exceeds the limit allowed and cannot be saved

"In my case I try to copy file over WEBDAV to WEB Client connection e.g. I have mapped drive to web site. file is about 70MB I can copy small files from the same WEBDav folder."

HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Services\WebClient\Parameters
  1. Right click on the FileSizeLimitInBytes and click Modify
  2. Click on Decimal
  3. In the Value data box, type 4294967295, and then click OK. Note this sets the maximum you can download from the Webdav to 4 gig at one time, I havent figured out how to make it unlimited so if you want to download more you need to split it up.

6.7References

These are the resources used during WASD WebDAV development.

Client Tools

All these have been used during WASD WebDAV development.