/*
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* See CONTRIBUTORS.TXT for a full list of copyright holders.
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using System;
using System.Collections.Generic;
using System.IO;
using System.Threading;
using System.Xml;
using OpenSim.Framework;
using OpenSim.Framework.Servers;
using OpenSim.Framework.Communications;
using OpenSim.Framework.Communications.Cache;
using libsecondlife;
using Nini.Config;
namespace OpenSim.ApplicationPlugins.Rest.Inventory
{
public class RestInventoryServices : IRest
{
private string key = "inventory";
private bool enabled = false;
private string qPrefix = "inventory";
// A simple constructor is used to handle any once-only
// initialization of working classes.
public RestInventoryServices(RestHandler p_rest)
{
Rest.Log.InfoFormat("{0} Inventory services initializing", MsgId);
Rest.Log.InfoFormat("{0} Using REST Implementation Version {1}", MsgId, Rest.Version);
// Update to reflect the full prefix if not absolute
if (!qPrefix.StartsWith(Rest.UrlPathSeparator))
{
qPrefix = Rest.Prefix + Rest.UrlPathSeparator + qPrefix;
}
// Authentication domain
Rest.Domains.Add(key, Rest.Config.GetString("inventory-domain",qPrefix));
// Register interface
Rest.Plugin.AddPathHandler(DoInventory,qPrefix,Allocate);
// Activate
enabled = true;
Rest.Log.InfoFormat("{0} Inventory services initialization complete", MsgId);
}
// Post-construction, pre-enabled initialization opportunity
// Not currently exploited.
public void Initialize()
{
}
// Called by the plug-in to halt REST processing. Local processing is
// disabled, and control blocks until all current processing has
// completed. No new processing will be started
public void Close()
{
enabled = false;
Rest.Log.InfoFormat("{0} Inventory services closing down", MsgId);
}
// Convenient properties
internal string MsgId
{
get { return Rest.MsgId; }
}
#region Interface
private RequestData Allocate(OSHttpRequest request, OSHttpResponse response)
{
return (RequestData) new InventoryRequestData(request, response, qPrefix);
}
///
/// This method is registered with the handler when this class is
/// initialized. It is called whenever the URI includes this handler's
/// prefix string.
/// It handles all aspects of inventory REST processing.
///
private void DoInventory(RequestData hdata)
{
InventoryRequestData rdata = (InventoryRequestData) hdata;
Rest.Log.DebugFormat("{0} DoInventory ENTRY", MsgId);
// We're disabled
if (!enabled)
{
return;
}
// Now that we know this is a serious attempt to
// access inventory data, we should find out who
// is asking, and make sure they are authorized
// to do so. We need to validate the caller's
// identity before revealing anything about the
// status quo. Authenticate throws an exception
// via Fail if no identity information is present.
//
// With the present HTTP server we can't use the
// builtin authentication mechanisms because they
// would be enforced for all in-bound requests.
// Instead we look at the headers ourselves and
// handle authentication directly.
try
{
if (!rdata.IsAuthenticated)
{
rdata.Fail(Rest.HttpStatusCodeNotAuthorized, Rest.HttpStatusDescNotAuthorized);
}
}
catch (RestException e)
{
if (e.statusCode == Rest.HttpStatusCodeNotAuthorized)
{
Rest.Log.WarnFormat("{0} User not authenticated", MsgId);
Rest.Log.DebugFormat("{0} Authorization header: {1}", MsgId, rdata.request.Headers.Get("Authorization"));
}
else
{
Rest.Log.ErrorFormat("{0} User authentication failed", MsgId);
Rest.Log.DebugFormat("{0} Authorization header: {1}", MsgId, rdata.request.Headers.Get("Authorization"));
}
throw (e);
}
Rest.Log.DebugFormat("{0} Authenticated {1}", MsgId, rdata.userName);
// We can only get here if we're authorized
//
// The requestor may have specified an LLUUID or
// a conjoined FirstNameLastName string. We'll
// try both. If we fail with the first, UUID,
// attempt, then we need two nodes to construct
// a valid avatar name.
// Do we have at least a user agent name?
if (rdata.parameters.Length < 1)
{
Rest.Log.WarnFormat("{0} Inventory: No user agent identifier specified", MsgId);
rdata.Fail(Rest.HttpStatusCodeBadRequest, Rest.HttpStatusDescBadRequest);
}
// The next parameter MUST be the agent identification, either an LLUUID
// or a space-separated First-name Last-Name specification.
try
{
rdata.uuid = new LLUUID(rdata.parameters[0]);
Rest.Log.DebugFormat("{0} LLUUID supplied", MsgId);
rdata.userProfile = Rest.UserServices.GetUserProfile(rdata.uuid);
}
catch
{
string[] names = rdata.parameters[0].Split(Rest.CA_SPACE);
if (names.Length == 2)
{
Rest.Log.DebugFormat("{0} Agent Name supplied [2]", MsgId);
rdata.userProfile = Rest.UserServices.GetUserProfile(names[0],names[1]);
}
else
{
Rest.Log.DebugFormat("{0} A Valid UUID or both first and last names must be specified", MsgId);
rdata.Fail(Rest.HttpStatusCodeBadRequest, Rest.HttpStatusDescBadRequest);
}
}
if (rdata.userProfile != null)
{
Rest.Log.DebugFormat("{0} Profile obtained for agent {1} {2}",
MsgId, rdata.userProfile.FirstName, rdata.userProfile.SurName);
}
else
{
Rest.Log.DebugFormat("{0} No profile for {1}", MsgId, rdata.path);
rdata.Fail(Rest.HttpStatusCodeNotFound,Rest.HttpStatusDescNotFound);
}
// If we get to here, then we have successfully obtained an inventory
// for the specified user.
rdata.uuid = rdata.userProfile.ID;
if (Rest.InventoryServices.HasInventoryForUser(rdata.uuid))
{
rdata.root = Rest.InventoryServices.RequestRootFolder(rdata.uuid);
Rest.Log.DebugFormat("{0} Inventory Root retrieved for {1} {2}",
MsgId, rdata.userProfile.FirstName, rdata.userProfile.SurName);
Rest.InventoryServices.RequestInventoryForUser(rdata.uuid, rdata.GetUserInventory);
Rest.Log.DebugFormat("{0} Inventory catalog requested for {1} {2}",
MsgId, rdata.userProfile.FirstName, rdata.userProfile.SurName);
lock(rdata)
{
if (!rdata.HaveInventory)
{
Monitor.Wait(rdata);
}
}
if (rdata.root == null)
{
Rest.Log.DebugFormat("{0} Inventory is not available [1] for agent {1} {2}",
MsgId, rdata.userProfile.FirstName, rdata.userProfile.SurName);
rdata.Fail(Rest.HttpStatusCodeServerError,Rest.HttpStatusDescServerError);
}
}
else
{
Rest.Log.DebugFormat("{0} Inventory is not available for agent [3] {1} {2}",
MsgId, rdata.userProfile.FirstName, rdata.userProfile.SurName);
rdata.Fail(Rest.HttpStatusCodeNotFound,Rest.HttpStatusDescNotFound);
}
// If we get here, then we have successfully retrieved the user's information
// and inventory information is now available locally.
switch (rdata.method)
{
case Rest.HEAD : // Do the processing, set the status code, suppress entity
DoGet(rdata);
rdata.buffer = null;
break;
case Rest.GET : // Do the processing, set the status code, return entity
DoGet(rdata);
break;
case Rest.PUT : // Add new information
DoPut(rdata);
break;
case Rest.POST : // Update (replace)
DoPost(rdata);
break;
case Rest.DELETE : // Delete information
DoDelete(rdata);
break;
default :
Rest.Log.DebugFormat("{0} Method {1} not supported for {2}",
MsgId, rdata.method, rdata.path);
rdata.Fail(Rest.HttpStatusCodeMethodNotAllowed,
Rest.HttpStatusDescMethodNotAllowed);
break;
}
}
#endregion Interface
#region method-specific processing
///
/// This method implements GET processing for inventory.
/// Any remaining parameters are used to locate the
/// corresponding subtree based upon node name.
///
private void DoGet(InventoryRequestData rdata)
{
rdata.initXmlWriter();
rdata.writer.WriteStartElement(String.Empty,"Inventory",String.Empty);
if (rdata.parameters.Length == 1)
{
formatInventory(rdata, rdata.root, String.Empty);
}
else
{
traverseInventory(rdata, rdata.root, 1);
}
rdata.writer.WriteFullEndElement();
rdata.Complete();
rdata.Respond("Inventory " + rdata.method + ": Normal completion");
}
///
/// In the case of the inventory, and probably much else
/// the distinction between PUT and POST is not always
/// easy to discern. Adding a directory can be viewed as
/// an addition, or as a modification to the inventory as
/// a whole.
///
/// The best distinction may be the relationship between
/// the entity and the URI. If we view POST as an update,
/// then the enity represents a replacement for the
/// element named by the URI. If the operation is PUT,
/// then the URI describes the context into which the
/// entity will be added.
///
/// As an example, suppose the URI contains:
/// /admin/inventory/Clothing
/// Suppose the entity represents a Folder, called
/// "Clothes".
///
/// A POST request will result in the replacement of
/// "Clothing" by "Clothes". Whereas a PUT request
/// would add Clothes as a sub-directory of Clothing.
///
/// This is the model followed by this implementation.
///
///
/// PUT adds new information to the inventory at the
/// context identified by the URI.
///
private void DoPut(InventoryRequestData rdata)
{
// Resolve the context node specified in the URI. Entity
// data will be ADDED beneath this node.
Object InventoryNode = getInventoryNode(rdata, rdata.root, 1);
// Processing depends upon the type of inventory node
// identified in the URI. This is the CONTEXT for the
// change. We either got a context or we threw an
// exception.
// It follows that we can only add information if the URI
// has identified a folder. So only folder is supported
// in this case.
if (typeof(InventoryFolderBase) == InventoryNode.GetType() ||
typeof(InventoryFolderImpl) == InventoryNode.GetType())
{
// Cast the context node appropriately.
InventoryFolderBase context = (InventoryFolderBase) InventoryNode;
Rest.Log.DebugFormat("{0} {1}: Resource(s) will be added to folder {2}",
MsgId, rdata.method, rdata.path);
// Reconstitute inventory sub-tree from the XML supplied in the entity.
// This is a stand-alone inventory subtree, not yet integrated into the
// existing tree.
XmlInventoryCollection entity = ReconstituteEntity(rdata);
// Inlined assest included in entity. If anything fails,
// return failure to requestor.
if (entity.Assets.Count > 0)
{
Rest.Log.DebugFormat("{0} Adding {1} assets to server",
MsgId, entity.Assets.Count);
foreach (AssetBase asset in entity.Assets)
{
Rest.Log.DebugFormat("{0} Rest asset: {1} {2} {3}",
MsgId, asset.ID, asset.Type, asset.Name);
Rest.AssetServices.AddAsset(asset);
if (Rest.DumpAsset)
{
Rest.Dump(asset.Data);
}
}
}
// Modify the context using the collection of folders and items
// returned in the XmlInventoryCollection.
foreach (InventoryFolderBase folder in entity.Folders)
{
InventoryFolderBase found = null;
// If the parentID is zero, then this is going
// into the root identified by the URI. The requestor
// may have already set the parent ID correctly, in which
// case we don't have to do it here.
if (folder.ParentID == LLUUID.Zero)
{
folder.ParentID = context.ID;
}
// Search the existing inventory for an existing entry. If
// we have once, we need to decide if it has really changed.
// It could just be present as (unnecessary) context, and we
// don't want to waste time updating the database in that
// case, OR, it could be being moved from another location
// in which case an update is most certainly necessary.
found = null;
foreach (InventoryFolderBase xf in rdata.folders)
{
// Compare identifying attribute
if (xf.ID == folder.ID)
{
found = xf;
}
}
if (found != null && FolderHasChanged(folder,found))
{
Rest.Log.DebugFormat("{0} Updating existing folder", MsgId);
Rest.InventoryServices.MoveFolder(folder);
}
else
{
Rest.Log.DebugFormat("{0} Adding new folder", MsgId);
Rest.InventoryServices.AddFolder(folder);
}
}
// Now we repeat a similar process for the items included
// in the entity.
foreach (InventoryItemBase item in entity.Items)
{
InventoryItemBase found = null;
// If the parentID is zero, then this is going
// directly into the root identified by the URI.
if (item.Folder == LLUUID.Zero)
{
item.Folder = context.ID;
}
// Determine whether this is a new item or a
// replacement definition.
foreach (InventoryItemBase xi in rdata.items)
{
// Compare identifying attribute
if (xi.ID == item.ID)
{
found = xi;
}
}
if (found != null && ItemHasChanged(item, found))
{
Rest.Log.DebugFormat("{0} Updating item {1} {2} {3} {4} {5}",
MsgId, item.ID, item.AssetID, item.InvType, item.AssetType, item.Name);
Rest.InventoryServices.UpdateItem(item);
}
else
{
Rest.Log.DebugFormat("{0} Adding item {1} {2} {3} {4} {5}",
MsgId, item.ID, item.AssetID, item.InvType, item.AssetType, item.Name);
Rest.InventoryServices.AddItem(item);
}
}
}
else
{
Rest.Log.DebugFormat("{0} {1}: Resource {2} is not a valid context: {3}",
MsgId, rdata.method, rdata.path, InventoryNode.GetType());
rdata.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
}
rdata.Complete();
rdata.Respond("Inventory " + rdata.method + ": Normal completion");
}
///
/// POST updates the URI-identified element in the inventory. This
/// is actually far more flexible than it might at first sound. For
/// POST the URI serves two purposes:
/// [1] It identifies the user whose inventory is to be
/// processed.
/// [2] It optionally specifies a subtree of the inventory
/// that is to be used to resolve an relative subtree
/// specifications in the entity. If nothing is specified
/// then the whole inventory is implied.
/// Please note that the subtree specified by the URI is only relevant
/// to an entity containing a URI relative specification, i.e. one or
/// more elements do not specify parent folder information. These
/// elements will be implicitly referenced within the context identified
/// by the URI.
/// If an element in the entity specifies an explicit parent folder, then
/// that parent is effective, regardless of nay value specified in the
/// URI. If the parent does not exist, then the element, and any dependent
/// elements, are ignored. This case is actually detected and handled
/// during the reconstitution process.
///
private void DoPost(InventoryRequestData rdata)
{
int count = 0;
// Resolve the inventory node that is to be modified.
Object InventoryNode = getInventoryNode(rdata, rdata.root, 1);
// As long as we have a context, then we have something
// meaningful to do, unlike PUT. So reconstitute the
// subtree before doing anything else. Note that we
// etiher got a context or we threw an exception.
XmlInventoryCollection entity = ReconstituteEntity(rdata);
// Incorporate any inlined assets first
if (entity.Assets.Count != 0)
{
foreach (AssetBase asset in entity.Assets)
{
// Asset was validated during the collection
// process
Rest.AssetServices.AddAsset(asset);
}
}
///
/// URI specifies a folder to be updated.
///
///
/// The root node in the entity must have the same
/// UUID as the node identified by the URI. The
/// parentID if different indicates that the updated
/// folder is actually being moved too.
///
if (typeof(InventoryFolderBase) == InventoryNode.GetType() ||
typeof(InventoryFolderImpl) == InventoryNode.GetType())
{
InventoryFolderBase uri = (InventoryFolderBase) InventoryNode;
InventoryFolderBase xml = null;
// Scan the set of folders in the entity collection for an
// entry that macthes the context folder. It is assumed that
// the only reliable indicator of this is a zero UUID ( using
// implicit context), or the parent's UUID matches that of the
// URI designated node (explicit context). We don't allow
// ambiguity in this case because this is POST and we are
// supposed to be modifying a specific node.
// We assign any element IDs required as an economy; we don't
// want to iterate over the fodler set again if it can be
// helped.
foreach (InventoryFolderBase folder in entity.Folders)
{
if (folder.ParentID == uri.ParentID ||
folder.ParentID == LLUUID.Zero)
{
folder.ParentID = uri.ParentID;
xml = folder;
count++;
}
if (xml.ID == LLUUID.Zero)
{
xml.ID = LLUUID.Random();
}
}
// More than one entry is ambiguous
if (count > 1)
{
Rest.Log.DebugFormat("{0} {1}: Request for <{2}> is ambiguous",
MsgId, rdata.method, rdata.path);
rdata.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
}
// Exactly one entry means we ARE replacing the node
// identified by the URI. So we delete the old folder
// by moving it to the trash and then purging it.
// We then add all of the folders and items we
// included in the entity. The subtree has been
// modified.
if (count == 1)
{
InventoryFolderBase TrashCan = GetTrashCan(rdata);
uri.ParentID = TrashCan.ID;
Rest.InventoryServices.MoveFolder(uri);
Rest.InventoryServices.PurgeFolder(TrashCan);
}
// Now, regardelss of what they represent, we
// integrate all of the elements in the entity.
foreach (InventoryFolderBase f in entity.Folders)
{
Rest.InventoryServices.MoveFolder(f);
}
foreach (InventoryItemBase it in entity.Items)
{
Rest.InventoryServices.AddItem(it);
}
}
///
/// URI specifies an item to be updated
///
///
/// The entity must contain a single item node to be
/// updated. ID and Folder ID must be correct.
///
else
{
InventoryItemBase uri = (InventoryItemBase) InventoryNode;
InventoryItemBase xml = null;
if (entity.Folders.Count != 0)
{
Rest.Log.DebugFormat("{0} {1}: Request should not contain any folders <{2}>",
MsgId, rdata.method, rdata.path);
rdata.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
}
if (entity.Items.Count > 1)
{
Rest.Log.DebugFormat("{0} {1}: Entity contains too many items <{2}>",
MsgId, rdata.method, rdata.path);
rdata.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
}
xml = entity.Items[0];
if (xml.ID == LLUUID.Zero)
{
xml.ID = LLUUID.Random();
}
// If the folder reference has changed, then this item is
// being moved. Otherwise we'll just delete the old, and
// add in the new.
// Delete the old item
Rest.InventoryServices.DeleteItem(uri);
// Add the new item to the inventory
Rest.InventoryServices.AddItem(xml);
}
rdata.Complete();
rdata.Respond("Inventory " + rdata.method + ": Normal completion");
}
///
/// Arguably the most damaging REST interface. It deletes the inventory
/// item or folder identified by the URI.
///
/// We only process if the URI identified node appears to exist
/// We do not test for success because we either get a context,
/// or an exception is thrown.
///
/// Folders are deleted by moving them to another folder and then
/// purging that folder. We'll do that by creating a temporary
/// sub-folder in the TrashCan and purging that folder's
/// contents. If we can't can it, we don't delete it...
/// So, if no trashcan is available, the request does nothing.
/// Items are summarily deleted.
///
/// In the interests of safety, a delete request should normally
/// be performed using UUID, as a name might identify several
/// elements.
///
private void DoDelete(InventoryRequestData rdata)
{
Object InventoryNode = getInventoryNode(rdata, rdata.root, 1);
if (typeof(InventoryFolderBase) == InventoryNode.GetType() ||
typeof(InventoryFolderImpl) == InventoryNode.GetType())
{
InventoryFolderBase TrashCan = GetTrashCan(rdata);
InventoryFolderBase folder = (InventoryFolderBase) InventoryNode;
Rest.Log.DebugFormat("{0} {1}: Folder {2} will be deleted",
MsgId, rdata.method, rdata.path);
folder.ParentID = TrashCan.ID;
Rest.InventoryServices.MoveFolder(folder);
Rest.InventoryServices.PurgeFolder(TrashCan);
}
// Deleting items is much more straight forward.
else
{
InventoryItemBase item = (InventoryItemBase) InventoryNode;
Rest.Log.DebugFormat("{0} {1}: Item {2} will be deleted",
MsgId, rdata.method, rdata.path);
Rest.InventoryServices.DeleteItem(item);
}
rdata.Complete();
rdata.Respond("Inventory " + rdata.method + ": Normal completion");
}
#endregion method-specific processing
///
/// This method is called to obtain the OpenSim inventory object identified
/// by the supplied URI. This may be either an Item or a Folder, so a suitably
/// ambiguous return type is employed (Object). This method recurses as
/// necessary to process the designated hierarchy.
///
/// If we reach the end of the URI then we return the contextural folder to
/// our caller.
///
/// If we are not yet at the end of the URI we attempt to find a child folder
/// and if we succeed we recurse.
///
/// If this is the last node, then we look to see if this is an item. If it is,
/// we return that item.
///
/// Otherwise we fail the request on the ground of an invalid URI.
///
///
/// This mechanism cannot detect the case where duplicate subtrees satisfy a
/// request. In such a case the 1st element gets processed. If this is a
/// problem, then UUID should be used to identify the end-node. This is basic
/// premise of normal inventory processing. The name is an informational, and
/// not a defining, attribute.
///
///
///
private Object getInventoryNode(InventoryRequestData rdata, InventoryFolderBase folder, int pi)
{
Rest.Log.DebugFormat("{0} Searching folder {1} {2} [{3}]", MsgId, folder.ID, folder.Name, pi);
// We have just run off the end of the parameter sequence
if (pi >= rdata.parameters.Length)
{
return folder;
}
// More names in the sequence, look for a folder that might
// get us there.
if (rdata.folders != null)
foreach (InventoryFolderBase f in rdata.folders)
{
// Look for the present node in the directory list
if (f.ParentID == folder.ID &&
(f.Name == rdata.parameters[pi] ||
f.ID.ToString() == rdata.parameters[pi]))
{
return getInventoryNode(rdata, f, pi+1);
}
}
// No folders that match. Perhaps this parameter identifies an item? If
// it does, then it MUST also be the last name in the sequence.
if (pi == rdata.parameters.Length-1)
{
if (rdata.items != null)
{
int k = 0;
InventoryItemBase li = null;
foreach (InventoryItemBase i in rdata.items)
{
if (i.Folder == folder.ID &&
(i.Name == rdata.parameters[pi] ||
i.ID.ToString() == rdata.parameters[pi]))
{
li = i;
k++;
}
}
if (k == 1)
{
return li;
}
else
{
Rest.Log.DebugFormat("{0} {1}: Request for {2} is ambiguous",
MsgId, rdata.method, rdata.path);
rdata.Fail(Rest.HttpStatusCodeNotFound, Rest.HttpStatusDescNotFound);
}
}
}
// No, so abandon the request
Rest.Log.DebugFormat("{0} {1}: Resource {2} not found",
MsgId, rdata.method, rdata.path);
rdata.Fail(Rest.HttpStatusCodeNotFound, Rest.HttpStatusDescNotFound);
return null; /* Never reached */
}
///
/// This routine traverse the inventory's structure until the end-point identified
/// in the URI is reached, the remainder of the inventory (if any) is then formatted
/// and returned to the requestor.
///
/// Note that this method is only interested in those folder that match elements of
/// the URI supplied by the requestor, so once a match is fund, the processing does
/// not need to consider any further elements.
///
/// Only the last element in the URI should identify an item.
///
private void traverseInventory(InventoryRequestData rdata, InventoryFolderBase folder, int pi)
{
Rest.Log.DebugFormat("{0} Folder : {1} {2} [{3}]", MsgId, folder.ID, folder.Name, pi);
if (rdata.folders != null)
{
foreach (InventoryFolderBase f in rdata.folders)
{
if (f.ParentID == folder.ID &&
(f.Name == rdata.parameters[pi] ||
f.ID.ToString() == rdata.parameters[pi]))
{
if (pi < rdata.parameters.Length-1)
{
traverseInventory(rdata, f, pi+1);
}
else
{
formatInventory(rdata, f, String.Empty);
}
return;
}
}
}
if (pi == rdata.parameters.Length-1)
{
if (rdata.items != null)
{
foreach (InventoryItemBase i in rdata.items)
{
if (i.Folder == folder.ID &&
(i.Name == rdata.parameters[pi] ||
i.ID.ToString() == rdata.parameters[pi]))
{
// Fetching an Item has a special significance. In this
// case we also want to fetch the associated asset.
// To make it interesting, we'll d this via redirection.
string asseturl = "http://" + rdata.hostname + ":" + rdata.port +
"/admin/assets" + Rest.UrlPathSeparator + i.AssetID.ToString();
rdata.Redirect(asseturl,Rest.PERMANENT);
Rest.Log.DebugFormat("{0} Never Reached");
}
}
}
}
Rest.Log.DebugFormat("{0} Inventory does not contain item/folder: <{1}>",
MsgId, rdata.path);
rdata.Fail(Rest.HttpStatusCodeNotFound,Rest.HttpStatusDescNotFound);
}
///
/// This method generates XML that describes an instance of InventoryFolderBase.
/// It recurses as necessary to reflect a folder hierarchy, and calls formatItem
/// to generate XML for any items encountered along the way.
/// The indentation parameter is solely for the benefit of trace record
/// formatting.
///
private void formatInventory(InventoryRequestData rdata, InventoryFolderBase folder, string indent)
{
if (Rest.DEBUG)
{
Rest.Log.DebugFormat("{0} Folder : {1} {2} {3}", MsgId, folder.ID, indent, folder.Name);
indent += "\t";
}
// Start folder item
rdata.writer.WriteStartElement(String.Empty,"Folder",String.Empty);
rdata.writer.WriteAttributeString("name",String.Empty,folder.Name);
rdata.writer.WriteAttributeString("uuid",String.Empty,folder.ID.ToString());
rdata.writer.WriteAttributeString("owner",String.Empty,folder.Owner.ToString());
rdata.writer.WriteAttributeString("type",String.Empty,folder.Type.ToString());
rdata.writer.WriteAttributeString("version",String.Empty,folder.Version.ToString());
if (rdata.folders != null)
{
foreach (InventoryFolderBase f in rdata.folders)
{
if (f.ParentID == folder.ID)
{
formatInventory(rdata, f, indent);
}
}
}
if (rdata.items != null)
{
foreach (InventoryItemBase i in rdata.items)
{
if (i.Folder == folder.ID)
{
formatItem(rdata, i, indent);
}
}
}
// End folder item
rdata.writer.WriteEndElement();
}
///
/// This method generates XML that describes an instance of InventoryItemBase.
///
private void formatItem(InventoryRequestData rdata, InventoryItemBase i, string indent)
{
Rest.Log.DebugFormat("{0} Item : {1} {2} {3}", MsgId, i.ID, indent, i.Name);
rdata.writer.WriteStartElement(String.Empty,"Item",String.Empty);
rdata.writer.WriteAttributeString("name",String.Empty,i.Name);
rdata.writer.WriteAttributeString("desc",String.Empty,i.Description);
rdata.writer.WriteAttributeString("uuid",String.Empty,i.ID.ToString());
rdata.writer.WriteAttributeString("owner",String.Empty,i.Owner.ToString());
rdata.writer.WriteAttributeString("creator",String.Empty,i.Creator.ToString());
rdata.writer.WriteAttributeString("creationdate",String.Empty,i.CreationDate.ToString());
rdata.writer.WriteAttributeString("type",String.Empty,i.InvType.ToString());
rdata.writer.WriteAttributeString("assettype",String.Empty,i.AssetType.ToString());
rdata.writer.WriteAttributeString("groupowned",String.Empty,i.GroupOwned.ToString());
rdata.writer.WriteAttributeString("groupid",String.Empty,i.GroupID.ToString());
rdata.writer.WriteAttributeString("saletype",String.Empty,i.SaleType.ToString());
rdata.writer.WriteAttributeString("saleprice",String.Empty,i.SalePrice.ToString());
rdata.writer.WriteAttributeString("flags",String.Empty,i.Flags.ToString("X"));
rdata.writer.WriteStartElement(String.Empty,"Permissions",String.Empty);
rdata.writer.WriteAttributeString("current",String.Empty,i.CurrentPermissions.ToString("X"));
rdata.writer.WriteAttributeString("next",String.Empty,i.NextPermissions.ToString("X"));
rdata.writer.WriteAttributeString("everyone",String.Empty,i.EveryOnePermissions.ToString("X"));
rdata.writer.WriteAttributeString("base",String.Empty,i.BasePermissions.ToString("X"));
rdata.writer.WriteEndElement();
rdata.writer.WriteElementString("Asset",i.AssetID.ToString());
rdata.writer.WriteEndElement();
}
///
/// This method creates a "trashcan" folder to support folder and item
/// deletions by this interface. The xisting trash folder is found and
/// this folder is created within it. It is called "tmp" to indicate to
/// the client that it is OK to delete this folder. The REST interface
/// will recreate the folder on an as-required basis.
/// If the trash can cannot be created, then by implication the request
/// that required it cannot be completed, and it fails accordingly.
///
private InventoryFolderBase GetTrashCan(InventoryRequestData rdata)
{
InventoryFolderBase TrashCan = null;
foreach (InventoryFolderBase f in rdata.folders)
{
if (f.Name == "Trash")
{
foreach (InventoryFolderBase t in rdata.folders)
{
if (t.Name == "tmp")
{
TrashCan = t;
}
}
if (TrashCan == null)
{
TrashCan = new InventoryFolderBase();
TrashCan.Name = "tmp";
TrashCan.ID = LLUUID.Random();
TrashCan.Version = 1;
TrashCan.Type = (short) AssetType.TrashFolder;
TrashCan.ParentID = f.ID;
Rest.InventoryServices.AddFolder(TrashCan);
}
}
}
if (TrashCan == null)
{
Rest.Log.DebugFormat("{0} No Trash Can available", MsgId);
rdata.Fail(Rest.HttpStatusCodeServerError,
Rest.HttpStatusDescServerError);
}
return TrashCan;
}
///
/// Make sure that an unchanged folder is not unnecessarily
/// processed.
///
private bool FolderHasChanged(InventoryFolderBase newf, InventoryFolderBase oldf)
{
return ( newf.Name != oldf.Name
|| newf.ParentID != oldf.ParentID
|| newf.Owner != oldf.Owner
|| newf.Type != oldf.Type
|| newf.Version != oldf.Version
);
}
///
/// Make sure that an unchanged item is not unnecessarily
/// processed.
///
private bool ItemHasChanged(InventoryItemBase newf, InventoryItemBase oldf)
{
return ( newf.Name != oldf.Name
|| newf.Folder != oldf.Description
|| newf.Description != oldf.Description
|| newf.Owner != oldf.Owner
|| newf.Creator != oldf.Creator
|| newf.AssetID != oldf.AssetID
|| newf.GroupID != oldf.GroupID
|| newf.GroupOwned != oldf.GroupOwned
|| newf.InvType != oldf.InvType
|| newf.AssetType != oldf.AssetType
);
}
///
/// This method is called by PUT and POST to create an XmlInventoryCollection
/// instance that reflects the content of the entity supplied on the request.
/// Any elements in the completed collection whose UUID is zero, are
/// considered to be located relative to the end-point identified int he
/// URI. In this way, an entire sub-tree can be conveyed in a single REST
/// PUT or POST request.
///
/// A new instance of XmlInventoryCollection is created and, if the request
/// has an entity, it is more completely initialized. thus, if no entity was
/// provided the collection is valid, but empty.
///
/// The entity is then scanned and each tag is processed to produce the
/// appropriate inventory elements. At the end f the scan, teh XmlInventoryCollection
/// will reflect the subtree described by the entity.
///
/// This is a very flexible mechanism, the entity may contain arbitrary,
/// discontiguous tree fragments, or may contain single element. The caller is
/// responsible for integrating this collection (and ensuring that any
/// missing parent IDs are resolved).
///
internal XmlInventoryCollection ReconstituteEntity(InventoryRequestData rdata)
{
Rest.Log.DebugFormat("{0} Reconstituting entity", MsgId);
XmlInventoryCollection ic = new XmlInventoryCollection();
if (rdata.request.HasEntityBody)
{
Rest.Log.DebugFormat("{0} Entity present", MsgId);
ic.init(rdata);
try
{
while (ic.xml.Read())
{
switch (ic.xml.NodeType)
{
case XmlNodeType.Element :
Rest.Log.DebugFormat("{0} StartElement: <{1}>",
MsgId, ic.xml.Name);
switch (ic.xml.Name)
{
case "Folder" :
Rest.Log.DebugFormat("{0} Processing {1} element",
MsgId, ic.xml.Name);
CollectFolder(ic);
break;
case "Item" :
Rest.Log.DebugFormat("{0} Processing {1} element",
MsgId, ic.xml.Name);
CollectItem(ic);
break;
case "Asset" :
Rest.Log.DebugFormat("{0} Processing {1} element",
MsgId, ic.xml.Name);
CollectAsset(ic);
break;
case "Permissions" :
Rest.Log.DebugFormat("{0} Processing {1} element",
MsgId, ic.xml.Name);
CollectPermissions(ic);
break;
default :
Rest.Log.DebugFormat("{0} Ignoring {1} element",
MsgId, ic.xml.Name);
break;
}
// This stinks, but the ReadElement call above not only reads
// the imbedded data, but also consumes the end tag for Asset
// and moves the element pointer on to the containing Item's
// element-end, however, if there was a permissions element
// following, it would get us to the start of that..
if (ic.xml.NodeType == XmlNodeType.EndElement &&
ic.xml.Name == "Item")
{
Validate(ic);
}
break;
case XmlNodeType.EndElement :
switch (ic.xml.Name)
{
case "Folder" :
Rest.Log.DebugFormat("{0} Completing {1} element",
MsgId, ic.xml.Name);
ic.Pop();
break;
case "Item" :
Rest.Log.DebugFormat("{0} Completing {1} element",
MsgId, ic.xml.Name);
Validate(ic);
break;
case "Asset" :
Rest.Log.DebugFormat("{0} Completing {1} element",
MsgId, ic.xml.Name);
break;
case "Permissions" :
Rest.Log.DebugFormat("{0} Completing {1} element",
MsgId, ic.xml.Name);
break;
default :
Rest.Log.DebugFormat("{0} Ignoring {1} element",
MsgId, ic.xml.Name);
break;
}
break;
default :
Rest.Log.DebugFormat("{0} [0] Ignoring: <{1}>:<2>",
MsgId, ic.xml.NodeType, ic.xml.Value);
break;
}
}
}
catch (XmlException e)
{
Rest.Log.WarnFormat("{0} XML parsing error: {1}", MsgId, e.Message);
throw e;
}
catch (Exception e)
{
Rest.Log.WarnFormat("{0} Unexpected XML parsing error: {1}", MsgId, e.Message);
throw e;
}
}
else
{
Rest.Log.DebugFormat("{0} Entity absent", MsgId);
}
if (Rest.DEBUG)
{
Rest.Log.DebugFormat("{0} Reconstituted entity", MsgId);
Rest.Log.DebugFormat("{0} {1} assets", MsgId, ic.Assets.Count);
Rest.Log.DebugFormat("{0} {1} folder", MsgId, ic.Folders.Count);
Rest.Log.DebugFormat("{0} {1} items", MsgId, ic.Items.Count);
}
return ic;
}
///
/// This method creates an inventory Folder from the
/// information supplied in the request's entity.
/// A folder instance is created and initialized to reflect
/// default values. These values are then overridden
/// by information supplied in the entity.
/// If context was not explicitly provided, then the
/// appropriate ID values are determined.
///
private void CollectFolder(XmlInventoryCollection ic)
{
Rest.Log.DebugFormat("{0} Interpret folder element", MsgId);
InventoryFolderBase result = new InventoryFolderBase();
// Default values
result.Name = String.Empty;
result.ID = LLUUID.Zero;
result.Owner = ic.UserID;
result.ParentID = LLUUID.Zero; // Context
result.Type = (short) AssetType.Folder;
result.Version = 1;
if (ic.xml.HasAttributes)
{
for (int i = 0; i < ic.xml.AttributeCount; i++)
{
ic.xml.MoveToAttribute(i);
switch (ic.xml.Name)
{
case "name" :
result.Name = ic.xml.Value;
break;
case "uuid" :
result.ID = new LLUUID(ic.xml.Value);
break;
case "parent" :
result.ParentID = new LLUUID(ic.xml.Value);
break;
case "owner" :
result.Owner = new LLUUID(ic.xml.Value);
break;
case "type" :
result.Type = Int16.Parse(ic.xml.Value);
break;
case "version" :
result.Version = UInt16.Parse(ic.xml.Value);
break;
default :
Rest.Log.DebugFormat("{0} Folder: unrecognized attribute: {1}:{2}",
MsgId, ic.xml.Name, ic.xml.Value);
ic.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
break;
}
}
}
ic.xml.MoveToElement();
// The client is relying upon the reconstitution process
// to determine the parent's UUID based upon context. This
// is necessary where a new folder may have been
// introduced.
if (result.ParentID == LLUUID.Zero)
{
result.ParentID = ic.Parent();
}
else
{
bool found = false;
foreach (InventoryFolderBase parent in ic.rdata.folders)
{
if ( parent.ID == result.ParentID )
{
found = true;
break;
}
}
if (!found)
{
Rest.Log.ErrorFormat("{0} Invalid parent ID ({1}) in folder {2}",
MsgId, ic.Item.Folder, result.ID);
ic.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
}
}
// This is a new folder, so no existing UUID is available
// or appropriate
if (result.ID == LLUUID.Zero)
{
result.ID = LLUUID.Random();
}
// Treat this as a new context. Any other information is
// obsolete as a consequence.
ic.Push(result);
}
///
/// This method is called to handle the construction of an Item
/// instance from the supplied request entity. It is called
/// whenever an Item start tag is detected.
/// An instance of an Item is created and initialized to default
/// values. These values are then overridden from values supplied
/// as attributes to the Item element.
/// This item is then stored in the XmlInventoryCollection and
/// will be verified by Validate.
/// All context is reset whenever the effective folder changes
/// or an item is successfully validated.
///
private void CollectItem(XmlInventoryCollection ic)
{
Rest.Log.DebugFormat("{0} Interpret item element", MsgId);
InventoryItemBase result = new InventoryItemBase();
result.Name = String.Empty;
result.Description = String.Empty;
result.ID = LLUUID.Zero;
result.Folder = LLUUID.Zero;
result.Owner = ic.UserID;
result.Creator = ic.UserID;
result.AssetID = LLUUID.Zero;
result.GroupID = LLUUID.Zero;
result.GroupOwned = false;
result.InvType = (int) InventoryType.Unknown;
result.AssetType = (int) AssetType.Unknown;
if (ic.xml.HasAttributes)
{
for (int i = 0; i < ic.xml.AttributeCount; i++)
{
ic.xml.MoveToAttribute(i);
switch (ic.xml.Name)
{
case "name" :
result.Name = ic.xml.Value;
break;
case "desc" :
result.Description = ic.xml.Value;
break;
case "uuid" :
result.ID = new LLUUID(ic.xml.Value);
break;
case "folder" :
result.Folder = new LLUUID(ic.xml.Value);
break;
case "owner" :
result.Owner = new LLUUID(ic.xml.Value);
break;
case "invtype" :
result.InvType = Int32.Parse(ic.xml.Value);
break;
case "creator" :
result.Creator = new LLUUID(ic.xml.Value);
break;
case "assettype" :
result.AssetType = Int32.Parse(ic.xml.Value);
break;
case "groupowned" :
result.GroupOwned = Boolean.Parse(ic.xml.Value);
break;
case "groupid" :
result.GroupID = new LLUUID(ic.xml.Value);
break;
case "flags" :
result.Flags = UInt32.Parse(ic.xml.Value);
break;
case "creationdate" :
result.CreationDate = Int32.Parse(ic.xml.Value);
break;
case "saletype" :
result.SaleType = Byte.Parse(ic.xml.Value);
break;
case "saleprice" :
result.SalePrice = Int32.Parse(ic.xml.Value);
break;
default :
Rest.Log.DebugFormat("{0} Item: Unrecognized attribute: {1}:{2}",
MsgId, ic.xml.Name, ic.xml.Value);
ic.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
break;
}
}
}
ic.xml.MoveToElement();
ic.Push(result);
}
///
/// This method assembles an asset instance from the
/// information supplied in the request's entity. It is
/// called as a result of detecting a start tag for a
/// type of Asset.
/// The information is collected locally, and an asset
/// instance is created only if the basic XML parsing
/// completes successfully.
/// Default values for all parts of the asset are
/// established before overriding them from the supplied
/// XML.
/// If an asset has inline=true as an attribute, then
/// the element contains the data representing the
/// asset. This is saved as the data component.
/// inline=false means that the element's payload is
/// simply the UUID of the asset referenced by the
/// item being constructed.
/// An asset, if created is stored in the
/// XmlInventoryCollection
///
private void CollectAsset(XmlInventoryCollection ic)
{
Rest.Log.DebugFormat("{0} Interpret asset element", MsgId);
AssetBase asset = null;
string name = String.Empty;
string desc = String.Empty;
sbyte type = (sbyte) AssetType.Unknown;
bool temp = false;
bool local = false;
// This is not a persistent attribute
bool inline = true;
LLUUID uuid = LLUUID.Zero;
// Attribute is optional
if (ic.xml.HasAttributes)
{
for (int i = 0; i < ic.xml.AttributeCount; i++)
{
ic.xml.MoveToAttribute(i);
switch (ic.xml.Name)
{
case "name" :
name = ic.xml.Value;
break;
case "type" :
type = SByte.Parse(ic.xml.Value);
break;
case "description" :
desc = ic.xml.Value;
break;
case "temporary" :
temp = Boolean.Parse(ic.xml.Value);
break;
case "uuid" :
uuid = new LLUUID(ic.xml.Value);
break;
case "inline" :
inline = Boolean.Parse(ic.xml.Value);
break;
case "local" :
local = Boolean.Parse(ic.xml.Value);
break;
default :
Rest.Log.DebugFormat("{0} Asset: Unrecognized attribute: {1}:{2}",
MsgId, ic.xml.Name, ic.xml.Value);
ic.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
break;
}
}
}
ic.xml.MoveToElement();
// If this is a reference to an existing asset, just store the
// asset ID into the item.
if (!inline)
{
if (ic.Item != null)
{
ic.Item.AssetID = new LLUUID(ic.xml.ReadElementContentAsString());
Rest.Log.DebugFormat("{0} Asset ID supplied: {1}", MsgId, ic.Item.AssetID);
}
else
{
Rest.Log.DebugFormat("{0} LLUID unimbedded asset must be inline", MsgId);
ic.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
}
}
// Otherwise, generate an asset ID, store that into the item, and
// create an entry in the asset list for the inlined asset. But
// only if the size is non-zero.
else
{
string b64string = null;
// Generate a UUID of none were given, and generally none should
// be. Ever.
if (uuid == LLUUID.Zero)
{
uuid = LLUUID.Random();
}
// Create AssetBase entity to hold the inlined asset
asset = new AssetBase(uuid, name);
asset.Description = desc;
asset.Type = type; // type == 0 == texture
asset.Local = local;
asset.Temporary = temp;
b64string = ic.xml.ReadElementContentAsString();
Rest.Log.DebugFormat("{0} Data length is {1}", MsgId, b64string.Length);
Rest.Log.DebugFormat("{0} Data content starts with: \n\t<{1}>", MsgId,
b64string.Substring(0, b64string.Length > 132 ? 132 : b64string.Length));
asset.Data = Convert.FromBase64String(b64string);
// Ensure the asset always has some kind of data component
if (asset.Data == null)
{
asset.Data = new byte[1];
}
// If this is in the context of an item, establish
// a link with the item in context.
if (ic.Item != null && ic.Item.AssetID == LLUUID.Zero)
{
ic.Item.AssetID = uuid;
}
}
ic.Push(asset);
}
///
/// Store any permissions information provided by the request.
/// This overrides the default permissions set when the
/// XmlInventoryCollection object was created.
///
private void CollectPermissions(XmlInventoryCollection ic)
{
if (ic.xml.HasAttributes)
{
for (int i = 0; i < ic.xml.AttributeCount; i++)
{
ic.xml.MoveToAttribute(i);
switch (ic.xml.Name)
{
case "current" :
ic.CurrentPermissions = UInt32.Parse(ic.xml.Value, System.Globalization.NumberStyles.HexNumber);
break;
case "next" :
ic.NextPermissions = UInt32.Parse(ic.xml.Value, System.Globalization.NumberStyles.HexNumber);
break;
case "everyone" :
ic.EveryOnePermissions = UInt32.Parse(ic.xml.Value, System.Globalization.NumberStyles.HexNumber);
break;
case "base" :
ic.BasePermissions = UInt32.Parse(ic.xml.Value, System.Globalization.NumberStyles.HexNumber);
break;
default :
Rest.Log.DebugFormat("{0} Permissions: invalid attribute {1}:{2}",
MsgId,ic.xml.Name, ic.xml.Value);
ic.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
break;
}
}
}
ic.xml.MoveToElement();
}
///
/// This method is called whenever an Item has been successfully
/// reconstituted from the request's entity.
/// It uses the information curren tin the XmlInventoryCollection
/// to complete the item's specification, including any implied
/// context and asset associations.
/// It fails the request if any necessary item or asset information
/// is missing.
///
private void Validate(XmlInventoryCollection ic)
{
// There really should be an item present if we've
// called validate. So fail if there is not.
if (ic.Item == null)
{
Rest.Log.ErrorFormat("{0} Unable to parse request", MsgId);
ic.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
}
// Every item is required to have a name (via REST anyway)
if (ic.Item.Name == String.Empty)
{
Rest.Log.ErrorFormat("{0} An item name MUST be specified", MsgId);
ic.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
}
// An item MUST have an asset ID. AssetID should never be zero
// here. It should always get set from the information stored
// when the Asset element was processed.
if (ic.Item.AssetID == LLUUID.Zero)
{
Rest.Log.ErrorFormat("{0} Unable to complete request", MsgId);
Rest.Log.InfoFormat("{0} Asset information is missing", MsgId);
ic.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
}
// If the item is new, then assign it an ID
if (ic.Item.ID == LLUUID.Zero)
{
ic.Item.ID = LLUUID.Random();
}
// If the context is being implied, obtain the current
// folder item's ID. If it was specified explicitly, make
// sure that theparent folder exists.
if (ic.Item.Folder == LLUUID.Zero)
{
ic.Item.Folder = ic.Parent();
}
else
{
bool found = false;
foreach (InventoryFolderBase parent in ic.rdata.folders)
{
if ( parent.ID == ic.Item.Folder )
{
found = true;
break;
}
}
if (!found)
{
Rest.Log.ErrorFormat("{0} Invalid parent ID ({1}) in item {2}",
MsgId, ic.Item.Folder, ic.Item.ID);
ic.Fail(Rest.HttpStatusCodeBadRequest,
Rest.HttpStatusDescBadRequest);
}
}
// If this is an inline asset being constructed in the context
// of a new Item, then use the itm's name here too.
if (ic.Asset != null)
{
if (ic.Asset.Name == String.Empty)
ic.Asset.Name = ic.Item.Name;
if (ic.Asset.Description == String.Empty)
ic.Asset.Description = ic.Item.Description;
}
// Assign permissions
ic.Item.CurrentPermissions = ic.CurrentPermissions;
ic.Item.EveryOnePermissions = ic.EveryOnePermissions;
ic.Item.BasePermissions = ic.BasePermissions;
ic.Item.NextPermissions = ic.NextPermissions;
// If no type was specified for this item, we can attempt to
// infer something from the file type maybe. This is NOT as
// good as having type be specified in the XML.
if (ic.Item.AssetType == (int) AssetType.Unknown ||
ic.Item.InvType == (int) AssetType.Unknown)
{
Rest.Log.DebugFormat("{0} Attempting to infer item type", MsgId);
string[] parts = ic.Item.Name.Split(Rest.CA_PERIOD);
if (Rest.DEBUG)
{
for (int i = 0; i < parts.Length; i++)
{
Rest.Log.DebugFormat("{0} Name part {1} : {2}",
MsgId, i, parts[i]);
}
}
// If the associated item name is multi-part, then maybe
// the last part will indicate the item type - if we're
// lucky.
if (parts.Length > 1)
{
Rest.Log.DebugFormat("{0} File type is {1}",
MsgId, parts[parts.Length - 1]);
switch (parts[parts.Length - 1])
{
case "jpeg2000" :
case "jpeg-2000" :
case "jpg2000" :
case "jpg-2000" :
Rest.Log.DebugFormat("{0} Type {1} inferred",
MsgId, parts[parts.Length-1]);
if (ic.Item.AssetType == (int) AssetType.Unknown)
ic.Item.AssetType = (int) AssetType.ImageJPEG;
if (ic.Item.InvType == (int) AssetType.Unknown)
ic.Item.InvType = (int) AssetType.ImageJPEG;
break;
case "jpg" :
case "jpeg" :
Rest.Log.DebugFormat("{0} Type {1} inferred",
MsgId, parts[parts.Length - 1]);
if (ic.Item.AssetType == (int) AssetType.Unknown)
ic.Item.AssetType = (int) AssetType.ImageJPEG;
if (ic.Item.InvType == (int) AssetType.Unknown)
ic.Item.InvType = (int) AssetType.ImageJPEG;
break;
default :
Rest.Log.DebugFormat("{0} Type was not inferred", MsgId);
break;
}
}
}
ic.reset();
}
#region Inventory RequestData extension
internal class InventoryRequestData : RequestData
{
///
/// These are the inventory specific request/response state
/// extensions.
///
internal bool HaveInventory = false;
internal ICollection folders = null;
internal ICollection items = null;
internal UserProfileData userProfile = null;
internal InventoryFolderBase root = null;
internal InventoryRequestData(OSHttpRequest request, OSHttpResponse response, string prefix)
: base(request, response, prefix)
{
}
///
/// This is the callback method required by inventory services. The
/// requestor issues an inventory request and then blocks until this
/// method signals the monitor.
///
internal void GetUserInventory(ICollection folders, ICollection items)
{
Rest.Log.DebugFormat("{0} Asynchronously updating inventory data", MsgId);
this.folders = folders;
this.items = items;
this.HaveInventory = true;
lock(this)
{
Monitor.Pulse(this);
}
}
}
#endregion Inventory RequestData extension
///
/// This class is used to record and manage the hierarchy
/// constructed from the entity supplied in the request for
/// PUT and POST.
///
internal class XmlInventoryCollection : InventoryCollection
{
internal InventoryRequestData rdata;
private Stack stk;
internal List Assets;
internal InventoryItemBase Item;
internal AssetBase Asset;
internal XmlReader xml;
internal /*static*/ const uint DefaultCurrent = 0x7FFFFFFF;
internal /*static*/ const uint DefaultNext = 0x82000;
internal /*static*/ const uint DefaultBase = 0x7FFFFFFF;
internal /*static*/ const uint DefaultEveryOne = 0x0;
internal uint CurrentPermissions = 0x00;
internal uint NextPermissions = 0x00;
internal uint BasePermissions = 0x00;
internal uint EveryOnePermissions = 0x00;
internal XmlInventoryCollection()
{
Folders = new List();
Items = new List();
Assets = new List();
}
internal void init(InventoryRequestData p_rdata)
{
rdata = p_rdata;
UserID = rdata.uuid;
stk = new Stack();
rdata.initXmlReader();
xml = rdata.reader;
initPermissions();
}
internal void initPermissions()
{
CurrentPermissions = DefaultCurrent;
NextPermissions = DefaultNext;
BasePermissions = DefaultBase;
EveryOnePermissions = DefaultEveryOne;
}
internal LLUUID Parent()
{
if (stk.Count != 0)
{
return stk.Peek().ID;
}
else
{
return LLUUID.Zero;
}
}
internal void Push(InventoryFolderBase folder)
{
stk.Push(folder);
Folders.Add(folder);
reset();
}
internal void Push(InventoryItemBase item)
{
Item = item;
Items.Add(item);
}
internal void Push(AssetBase asset)
{
Asset = asset;
Assets.Add(asset);
}
internal void Pop()
{
stk.Pop();
reset();
}
internal void reset()
{
Item = null;
Asset = null;
initPermissions();
}
internal void Fail(int code, string desc)
{
rdata.Fail(code, desc);
}
}
}
}