using MediaBrowser.Common.Extensions;
using MediaBrowser.Common.Progress;
using MediaBrowser.Controller.Entities.TV;
using MediaBrowser.Controller.Library;
using MediaBrowser.Controller.Localization;
using MediaBrowser.Controller.Resolvers;
using MediaBrowser.Model.Entities;
using MoreLinq;
using System;
using System.Collections;
using System.Collections.Concurrent;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Runtime.Serialization;
using System.Threading;
using System.Threading.Tasks;
namespace MediaBrowser.Controller.Entities
{
///
/// Class Folder
///
public class Folder : BaseItem
{
public static IUserManager UserManager { get; set; }
public Folder()
{
LinkedChildren = new List();
}
///
/// Gets a value indicating whether this instance is folder.
///
/// true if this instance is folder; otherwise, false.
[IgnoreDataMember]
public override bool IsFolder
{
get
{
return true;
}
}
///
/// Gets or sets a value indicating whether this instance is physical root.
///
/// true if this instance is physical root; otherwise, false.
public bool IsPhysicalRoot { get; set; }
///
/// Gets or sets a value indicating whether this instance is root.
///
/// true if this instance is root; otherwise, false.
public bool IsRoot { get; set; }
///
/// Gets a value indicating whether this instance is virtual folder.
///
/// true if this instance is virtual folder; otherwise, false.
[IgnoreDataMember]
public virtual bool IsVirtualFolder
{
get
{
return false;
}
}
public virtual List LinkedChildren { get; set; }
protected virtual bool SupportsShortcutChildren
{
get { return true; }
}
///
/// Adds the child.
///
/// The item.
/// The cancellation token.
/// Task.
/// Unable to add + item.Name
public async Task AddChild(BaseItem item, CancellationToken cancellationToken)
{
item.Parent = this;
if (item.Id == Guid.Empty)
{
item.Id = item.Path.GetMBId(item.GetType());
}
if (ActualChildren.Any(i => i.Id == item.Id))
{
throw new ArgumentException(string.Format("A child with the Id {0} already exists.", item.Id));
}
if (item.DateCreated == DateTime.MinValue)
{
item.DateCreated = DateTime.UtcNow;
}
if (item.DateModified == DateTime.MinValue)
{
item.DateModified = DateTime.UtcNow;
}
AddChildInternal(item);
await LibraryManager.CreateItem(item, cancellationToken).ConfigureAwait(false);
await ItemRepository.SaveChildren(Id, ActualChildren.Select(i => i.Id).ToList(), cancellationToken).ConfigureAwait(false);
}
protected void AddChildrenInternal(IEnumerable children)
{
lock (_childrenSyncLock)
{
var newChildren = ActualChildren.ToList();
newChildren.AddRange(children);
_children = newChildren;
}
}
protected void AddChildInternal(BaseItem child)
{
lock (_childrenSyncLock)
{
var newChildren = ActualChildren.ToList();
newChildren.Add(child);
_children = newChildren;
}
}
protected void RemoveChildrenInternal(IEnumerable children)
{
lock (_childrenSyncLock)
{
_children = ActualChildren.Except(children).ToList();
}
}
protected void ClearChildrenInternal()
{
lock (_childrenSyncLock)
{
_children = new List();
}
}
///
/// Never want folders to be blocked by "BlockNotRated"
///
[IgnoreDataMember]
public override string OfficialRatingForComparison
{
get
{
if (this is Series)
{
return base.OfficialRatingForComparison;
}
return !string.IsNullOrEmpty(base.OfficialRatingForComparison) ? base.OfficialRatingForComparison : "None";
}
}
///
/// Removes the child.
///
/// The item.
/// The cancellation token.
/// Task.
/// Unable to remove + item.Name
public Task RemoveChild(BaseItem item, CancellationToken cancellationToken)
{
RemoveChildrenInternal(new[] { item });
item.Parent = null;
LibraryManager.ReportItemRemoved(item);
return ItemRepository.SaveChildren(Id, ActualChildren.Select(i => i.Id).ToList(), cancellationToken);
}
///
/// Clears the children.
///
/// The cancellation token.
/// Task.
public Task ClearChildren(CancellationToken cancellationToken)
{
var items = ActualChildren.ToList();
ClearChildrenInternal();
foreach (var item in items)
{
LibraryManager.ReportItemRemoved(item);
}
return ItemRepository.SaveChildren(Id, ActualChildren.Select(i => i.Id).ToList(), cancellationToken);
}
#region Indexing
///
/// The _index by options
///
private Dictionary>> _indexByOptions;
///
/// Dictionary of index options - consists of a display value and an indexing function
/// which takes User as a parameter and returns an IEnum of BaseItem
///
/// The index by options.
[IgnoreDataMember]
public Dictionary>> IndexByOptions
{
get { return _indexByOptions ?? (_indexByOptions = GetIndexByOptions()); }
}
///
/// Returns the valid set of index by options for this folder type.
/// Override or extend to modify.
///
/// Dictionary{System.StringFunc{UserIEnumerable{BaseItem}}}.
protected virtual Dictionary>> GetIndexByOptions()
{
return new Dictionary>> {
{LocalizedStrings.Instance.GetString("NoneDispPref"), null},
{LocalizedStrings.Instance.GetString("PerformerDispPref"), GetIndexByPerformer},
{LocalizedStrings.Instance.GetString("GenreDispPref"), GetIndexByGenre},
{LocalizedStrings.Instance.GetString("DirectorDispPref"), GetIndexByDirector},
{LocalizedStrings.Instance.GetString("YearDispPref"), GetIndexByYear},
//{LocalizedStrings.Instance.GetString("OfficialRatingDispPref"), null},
{LocalizedStrings.Instance.GetString("StudioDispPref"), GetIndexByStudio}
};
}
///
/// Gets the index by actor.
///
/// The user.
/// IEnumerable{BaseItem}.
protected IEnumerable GetIndexByPerformer(User user)
{
return GetIndexByPerson(user, new List { PersonType.Actor, PersonType.GuestStar }, true, LocalizedStrings.Instance.GetString("PerformerDispPref"));
}
///
/// Gets the index by director.
///
/// The user.
/// IEnumerable{BaseItem}.
protected IEnumerable GetIndexByDirector(User user)
{
return GetIndexByPerson(user, new List { PersonType.Director }, false, LocalizedStrings.Instance.GetString("DirectorDispPref"));
}
///
/// Gets the index by person.
///
/// The user.
/// The person types we should match on
/// if set to true [include audio].
/// Name of the index.
/// IEnumerable{BaseItem}.
private IEnumerable GetIndexByPerson(User user, List personTypes, bool includeAudio, string indexName)
{
// Even though this implementation means multiple iterations over the target list - it allows us to defer
// the retrieval of the individual children for each index value until they are requested.
using (new Profiler(indexName + " Index Build for " + Name, Logger))
{
// Put this in a local variable to avoid an implicitly captured closure
var currentIndexName = indexName;
var us = this;
var recursiveChildren = GetRecursiveChildren(user).Where(i => i.IncludeInIndex).ToList();
// Get the candidates, but handle audio separately
var candidates = recursiveChildren.Where(i => i.AllPeople != null && !(i is Audio.Audio)).ToList();
var indexFolders = candidates.AsParallel().SelectMany(i => i.AllPeople.Where(p => personTypes.Contains(p.Type))
.Select(a => a.Name))
.Distinct()
.Select(i =>
{
try
{
return LibraryManager.GetPerson(i);
}
catch (IOException ex)
{
Logger.ErrorException("Error getting person {0}", ex, i);
return null;
}
catch (AggregateException ex)
{
Logger.ErrorException("Error getting person {0}", ex, i);
return null;
}
})
.Where(i => i != null)
.Select(a => new IndexFolder(us, a,
candidates.Where(i => i.AllPeople.Any(p => personTypes.Contains(p.Type) && p.Name.Equals(a.Name, StringComparison.OrdinalIgnoreCase))
), currentIndexName)).AsEnumerable();
if (includeAudio)
{
var songs = recursiveChildren.OfType().ToList();
indexFolders = songs.SelectMany(i => i.Artists)
.Distinct(StringComparer.OrdinalIgnoreCase)
.Select(i =>
{
try
{
return LibraryManager.GetArtist(i);
}
catch (IOException ex)
{
Logger.ErrorException("Error getting artist {0}", ex, i);
return null;
}
catch (AggregateException ex)
{
Logger.ErrorException("Error getting artist {0}", ex, i);
return null;
}
})
.Where(i => i != null)
.Select(a => new IndexFolder(us, a,
songs.Where(i => i.Artists.Contains(a.Name, StringComparer.OrdinalIgnoreCase)
), currentIndexName)).Concat(indexFolders);
}
return indexFolders;
}
}
///
/// Gets the index by studio.
///
/// The user.
/// IEnumerable{BaseItem}.
protected IEnumerable GetIndexByStudio(User user)
{
// Even though this implementation means multiple iterations over the target list - it allows us to defer
// the retrieval of the individual children for each index value until they are requested.
using (new Profiler("Studio Index Build for " + Name, Logger))
{
var indexName = LocalizedStrings.Instance.GetString("StudioDispPref");
var candidates = GetRecursiveChildren(user).Where(i => i.IncludeInIndex).ToList();
return candidates.AsParallel().SelectMany(i => i.AllStudios)
.Distinct()
.Select(i =>
{
try
{
return LibraryManager.GetStudio(i);
}
catch (IOException ex)
{
Logger.ErrorException("Error getting studio {0}", ex, i);
return null;
}
catch (AggregateException ex)
{
Logger.ErrorException("Error getting studio {0}", ex, i);
return null;
}
})
.Where(i => i != null)
.Select(ndx => new IndexFolder(this, ndx, candidates.Where(i => i.AllStudios.Any(s => s.Equals(ndx.Name, StringComparison.OrdinalIgnoreCase))), indexName));
}
}
///
/// Gets the index by genre.
///
/// The user.
/// IEnumerable{BaseItem}.
protected IEnumerable GetIndexByGenre(User user)
{
// Even though this implementation means multiple iterations over the target list - it allows us to defer
// the retrieval of the individual children for each index value until they are requested.
using (new Profiler("Genre Index Build for " + Name, Logger))
{
var indexName = LocalizedStrings.Instance.GetString("GenreDispPref");
//we need a copy of this so we don't double-recurse
var candidates = GetRecursiveChildren(user).Where(i => i.IncludeInIndex).ToList();
return candidates.AsParallel().SelectMany(i => i.AllGenres)
.Distinct(StringComparer.OrdinalIgnoreCase)
.Select(i =>
{
try
{
return LibraryManager.GetGenre(i);
}
catch (Exception ex)
{
Logger.ErrorException("Error getting genre {0}", ex, i);
return null;
}
})
.Where(i => i != null)
.Select(genre => new IndexFolder(this, genre, candidates.Where(i => i.AllGenres.Any(g => g.Equals(genre.Name, StringComparison.OrdinalIgnoreCase))), indexName)
);
}
}
///
/// Gets the index by year.
///
/// The user.
/// IEnumerable{BaseItem}.
protected IEnumerable GetIndexByYear(User user)
{
// Even though this implementation means multiple iterations over the target list - it allows us to defer
// the retrieval of the individual children for each index value until they are requested.
using (new Profiler("Production Year Index Build for " + Name, Logger))
{
var indexName = LocalizedStrings.Instance.GetString("YearDispPref");
//we need a copy of this so we don't double-recurse
var candidates = GetRecursiveChildren(user).Where(i => i.IncludeInIndex && i.ProductionYear.HasValue).ToList();
return candidates.AsParallel().Select(i => i.ProductionYear.Value)
.Distinct()
.Select(i =>
{
try
{
return LibraryManager.GetYear(i);
}
catch (IOException ex)
{
Logger.ErrorException("Error getting year {0}", ex, i);
return null;
}
catch (AggregateException ex)
{
Logger.ErrorException("Error getting year {0}", ex, i);
return null;
}
})
.Where(i => i != null)
.Select(ndx => new IndexFolder(this, ndx, candidates.Where(i => i.ProductionYear == int.Parse(ndx.Name)), indexName));
}
}
///
/// Returns the indexed children for this user from the cache. Caches them if not already there.
///
/// The user.
/// The index by.
/// IEnumerable{BaseItem}.
private IEnumerable GetIndexedChildren(User user, string indexBy)
{
List result = null;
var cacheKey = user.Name + indexBy;
if (IndexCache != null)
{
IndexCache.TryGetValue(cacheKey, out result);
}
if (result == null)
{
//not cached - cache it
Func> indexing;
IndexByOptions.TryGetValue(indexBy, out indexing);
result = BuildIndex(indexBy, indexing, user);
}
return result;
}
///
/// Get the list of indexy by choices for this folder (localized).
///
/// The index by option strings.
[IgnoreDataMember]
public IEnumerable IndexByOptionStrings
{
get { return IndexByOptions.Keys; }
}
///
/// The index cache
///
protected ConcurrentDictionary> IndexCache;
///
/// Builds the index.
///
/// The index key.
/// The index function.
/// The user.
/// List{BaseItem}.
protected virtual List BuildIndex(string indexKey, Func> indexFunction, User user)
{
if (IndexCache == null)
{
IndexCache = new ConcurrentDictionary>();
}
return indexFunction != null
? IndexCache[user.Name + indexKey] = indexFunction(user).ToList()
: null;
}
#endregion
///
/// The children
///
private IReadOnlyList _children;
///
/// The _children sync lock
///
private readonly object _childrenSyncLock = new object();
///
/// Gets or sets the actual children.
///
/// The actual children.
protected virtual IEnumerable ActualChildren
{
get
{
return _children ?? (_children = LoadChildrenInternal());
}
}
///
/// thread-safe access to the actual children of this folder - without regard to user
///
/// The children.
[IgnoreDataMember]
public IEnumerable Children
{
get { return ActualChildren; }
}
///
/// thread-safe access to all recursive children of this folder - without regard to user
///
/// The recursive children.
[IgnoreDataMember]
public IEnumerable RecursiveChildren
{
get { return GetRecursiveChildren(); }
}
private List LoadChildrenInternal()
{
return LoadChildren().ToList();
}
///
/// Loads our children. Validation will occur externally.
/// We want this sychronous.
///
protected virtual IEnumerable LoadChildren()
{
//just load our children from the repo - the library will be validated and maintained in other processes
return GetCachedChildren();
}
///
/// Gets or sets the current validation cancellation token source.
///
/// The current validation cancellation token source.
private CancellationTokenSource CurrentValidationCancellationTokenSource { get; set; }
///
/// Validates that the children of the folder still exist
///
/// The progress.
/// The cancellation token.
/// if set to true [recursive].
/// if set to true [force refresh metadata].
/// Task.
public async Task ValidateChildren(IProgress progress, CancellationToken cancellationToken, bool? recursive = null, bool forceRefreshMetadata = false)
{
cancellationToken.ThrowIfCancellationRequested();
// Cancel the current validation, if any
if (CurrentValidationCancellationTokenSource != null)
{
CurrentValidationCancellationTokenSource.Cancel();
}
// Create an inner cancellation token. This can cancel all validations from this level on down,
// but nothing above this
var innerCancellationTokenSource = new CancellationTokenSource();
try
{
CurrentValidationCancellationTokenSource = innerCancellationTokenSource;
var linkedCancellationTokenSource = CancellationTokenSource.CreateLinkedTokenSource(innerCancellationTokenSource.Token, cancellationToken);
await ValidateChildrenInternal(progress, linkedCancellationTokenSource.Token, recursive, forceRefreshMetadata).ConfigureAwait(false);
}
catch (OperationCanceledException ex)
{
Logger.Info("ValidateChildren cancelled for " + Name);
// If the outer cancelletion token in the cause for the cancellation, throw it
if (cancellationToken.IsCancellationRequested && ex.CancellationToken == cancellationToken)
{
throw;
}
}
finally
{
// Null out the token source
if (CurrentValidationCancellationTokenSource == innerCancellationTokenSource)
{
CurrentValidationCancellationTokenSource = null;
}
innerCancellationTokenSource.Dispose();
}
}
///
/// Compare our current children (presumably just read from the repo) with the current state of the file system and adjust for any changes
/// ***Currently does not contain logic to maintain items that are unavailable in the file system***
///
/// The progress.
/// The cancellation token.
/// if set to true [recursive].
/// if set to true [force refresh metadata].
/// Task.
protected async virtual Task ValidateChildrenInternal(IProgress progress, CancellationToken cancellationToken, bool? recursive = null, bool forceRefreshMetadata = false)
{
var locationType = LocationType;
// Nothing to do here
if (locationType == LocationType.Remote || locationType == LocationType.Virtual)
{
return;
}
cancellationToken.ThrowIfCancellationRequested();
IEnumerable nonCachedChildren;
try
{
nonCachedChildren = GetNonCachedChildren();
}
catch (IOException ex)
{
nonCachedChildren = new BaseItem[] { };
Logger.ErrorException("Error getting file system entries for {0}", ex, Path);
}
if (nonCachedChildren == null) return; //nothing to validate
progress.Report(5);
//build a dictionary of the current children we have now by Id so we can compare quickly and easily
var currentChildren = ActualChildren.ToDictionary(i => i.Id);
//create a list for our validated children
var validChildren = new List>();
var newItems = new List();
cancellationToken.ThrowIfCancellationRequested();
foreach (var child in nonCachedChildren)
{
BaseItem currentChild;
if (currentChildren.TryGetValue(child.Id, out currentChild))
{
currentChild.ResetResolveArgs(child.ResolveArgs);
//existing item - check if it has changed
if (currentChild.HasChanged(child))
{
EntityResolutionHelper.EnsureDates(FileSystem, currentChild, child.ResolveArgs, false);
validChildren.Add(new Tuple(currentChild, true));
}
else
{
validChildren.Add(new Tuple(currentChild, false));
}
currentChild.IsOffline = false;
}
else
{
//brand new item - needs to be added
newItems.Add(child);
validChildren.Add(new Tuple(child, true));
}
}
// If any items were added or removed....
if (newItems.Count > 0 || currentChildren.Count != validChildren.Count)
{
var newChildren = validChildren.Select(c => c.Item1).ToList();
// That's all the new and changed ones - now see if there are any that are missing
var itemsRemoved = currentChildren.Values.Except(newChildren).ToList();
var actualRemovals = new List();
foreach (var item in itemsRemoved)
{
if (item.LocationType == LocationType.Virtual ||
item.LocationType == LocationType.Remote)
{
// Don't remove these because there's no way to accurately validate them.
continue;
}
if (!string.IsNullOrEmpty(item.Path) && IsPathOffline(item.Path))
{
item.IsOffline = true;
validChildren.Add(new Tuple(item, false));
}
else
{
item.IsOffline = false;
actualRemovals.Add(item);
}
}
if (actualRemovals.Count > 0)
{
RemoveChildrenInternal(actualRemovals);
foreach (var item in actualRemovals)
{
LibraryManager.ReportItemRemoved(item);
}
}
await LibraryManager.CreateItems(newItems, cancellationToken).ConfigureAwait(false);
AddChildrenInternal(newItems);
await ItemRepository.SaveChildren(Id, ActualChildren.Select(i => i.Id).ToList(), cancellationToken).ConfigureAwait(false);
//force the indexes to rebuild next time
if (IndexCache != null)
{
IndexCache.Clear();
}
}
progress.Report(10);
cancellationToken.ThrowIfCancellationRequested();
await RefreshChildren(validChildren, progress, cancellationToken, recursive, forceRefreshMetadata).ConfigureAwait(false);
progress.Report(100);
}
///
/// Refreshes the children.
///
/// The children.
/// The progress.
/// The cancellation token.
/// if set to true [recursive].
/// if set to true [force refresh metadata].
/// Task.
private async Task RefreshChildren(IList> children, IProgress progress, CancellationToken cancellationToken, bool? recursive, bool forceRefreshMetadata = false)
{
var list = children;
var percentages = new Dictionary(list.Count);
var tasks = new List();
foreach (var tuple in list)
{
if (tasks.Count > 10)
{
await Task.WhenAll(tasks).ConfigureAwait(false);
}
Tuple currentTuple = tuple;
tasks.Add(Task.Run(async () =>
{
cancellationToken.ThrowIfCancellationRequested();
var child = currentTuple.Item1;
try
{
//refresh it
await child.RefreshMetadata(cancellationToken, forceSave: currentTuple.Item2, forceRefresh: forceRefreshMetadata, resetResolveArgs: false).ConfigureAwait(false);
}
catch (IOException ex)
{
Logger.ErrorException("Error refreshing {0}", ex, child.Path ?? child.Name);
}
// Refresh children if a folder and the item changed or recursive is set to true
var refreshChildren = child.IsFolder && (currentTuple.Item2 || (recursive.HasValue && recursive.Value));
if (refreshChildren)
{
// Don't refresh children if explicitly set to false
if (recursive.HasValue && recursive.Value == false)
{
refreshChildren = false;
}
}
if (refreshChildren)
{
cancellationToken.ThrowIfCancellationRequested();
var innerProgress = new ActionableProgress();
innerProgress.RegisterAction(p =>
{
lock (percentages)
{
percentages[child.Id] = p / 100;
var percent = percentages.Values.Sum();
percent /= list.Count;
progress.Report((90 * percent) + 10);
}
});
await ((Folder)child).ValidateChildren(innerProgress, cancellationToken, recursive, forceRefreshMetadata).ConfigureAwait(false);
try
{
// Some folder providers are unable to refresh until children have been refreshed.
await child.RefreshMetadata(cancellationToken, resetResolveArgs: false).ConfigureAwait(false);
}
catch (IOException ex)
{
Logger.ErrorException("Error refreshing {0}", ex, child.Path ?? child.Name);
}
}
else
{
lock (percentages)
{
percentages[child.Id] = 1;
var percent = percentages.Values.Sum();
percent /= list.Count;
progress.Report((90 * percent) + 10);
}
}
}, cancellationToken));
}
cancellationToken.ThrowIfCancellationRequested();
await Task.WhenAll(tasks).ConfigureAwait(false);
}
///
/// Determines whether the specified path is offline.
///
/// The path.
/// true if the specified path is offline; otherwise, false.
private bool IsPathOffline(string path)
{
if (File.Exists(path))
{
return false;
}
var originalPath = path;
// Depending on whether the path is local or unc, it may return either null or '\' at the top
while (!string.IsNullOrEmpty(path) && path.Length > 1)
{
if (Directory.Exists(path))
{
return false;
}
path = System.IO.Path.GetDirectoryName(path);
}
if (ContainsPath(LibraryManager.GetDefaultVirtualFolders(), originalPath))
{
return true;
}
return UserManager.Users.Any(user => ContainsPath(LibraryManager.GetVirtualFolders(user), originalPath));
}
///
/// Determines whether the specified folders contains path.
///
/// The folders.
/// The path.
/// true if the specified folders contains path; otherwise, false.
private bool ContainsPath(IEnumerable folders, string path)
{
return folders.SelectMany(i => i.Locations).Any(i => ContainsPath(i, path));
}
private bool ContainsPath(string parent, string path)
{
return string.Equals(parent, path, StringComparison.OrdinalIgnoreCase) || path.IndexOf(parent.TrimEnd(System.IO.Path.DirectorySeparatorChar) + System.IO.Path.DirectorySeparatorChar, StringComparison.OrdinalIgnoreCase) != -1;
}
///
/// Get the children of this folder from the actual file system
///
/// IEnumerable{BaseItem}.
protected virtual IEnumerable GetNonCachedChildren()
{
var resolveArgs = ResolveArgs;
if (resolveArgs == null || resolveArgs.FileSystemDictionary == null)
{
Logger.Error("ResolveArgs null for {0}", Path);
}
return LibraryManager.ResolvePaths(resolveArgs.FileSystemChildren, this);
}
///
/// Get our children from the repo - stubbed for now
///
/// IEnumerable{BaseItem}.
protected IEnumerable GetCachedChildren()
{
return ItemRepository.GetChildren(Id).Select(RetrieveChild).Where(i => i != null);
}
///
/// Retrieves the child.
///
/// The child.
/// BaseItem.
private BaseItem RetrieveChild(Guid child)
{
var item = LibraryManager.RetrieveItem(child);
if (item != null)
{
if (item is IByReferenceItem)
{
return LibraryManager.GetOrAddByReferenceItem(item);
}
item.Parent = this;
}
return item;
}
///
/// Gets allowed children of an item
///
/// The user.
/// if set to true [include linked children].
/// The index by.
/// IEnumerable{BaseItem}.
///
public virtual IEnumerable GetChildren(User user, bool includeLinkedChildren, string indexBy = null)
{
if (user == null)
{
throw new ArgumentNullException();
}
//the true root should return our users root folder children
if (IsPhysicalRoot) return user.RootFolder.GetChildren(user, includeLinkedChildren, indexBy);
IEnumerable result = null;
if (!string.IsNullOrEmpty(indexBy))
{
result = GetIndexedChildren(user, indexBy);
}
if (result != null)
{
return result;
}
var list = new List();
AddChildrenToList(user, includeLinkedChildren, list, false, null);
return list;
}
///
/// Adds the children to list.
///
/// The user.
/// if set to true [include linked children].
/// The list.
/// if set to true [recursive].
/// The filter.
/// true if XXXX, false otherwise
private bool AddChildrenToList(User user, bool includeLinkedChildren, List list, bool recursive, Func filter)
{
var hasLinkedChildren = false;
foreach (var child in Children)
{
if (child.IsVisible(user))
{
if (filter == null || filter(child))
{
list.Add(child);
}
}
if (recursive && child.IsFolder)
{
var folder = (Folder)child;
if (folder.AddChildrenToList(user, includeLinkedChildren, list, true, filter))
{
hasLinkedChildren = true;
}
}
}
if (includeLinkedChildren)
{
foreach (var child in GetLinkedChildren())
{
if (filter != null && !filter(child))
{
continue;
}
if (child.IsVisible(user))
{
hasLinkedChildren = true;
list.Add(child);
}
}
}
return hasLinkedChildren;
}
///
/// Gets allowed recursive children of an item
///
/// The user.
/// if set to true [include linked children].
/// IEnumerable{BaseItem}.
///
public IEnumerable GetRecursiveChildren(User user, bool includeLinkedChildren = true)
{
return GetRecursiveChildren(user, null, includeLinkedChildren);
}
///
/// Gets the recursive children.
///
/// The user.
/// The filter.
/// if set to true [include linked children].
/// IList{BaseItem}.
///
public IList GetRecursiveChildren(User user, Func filter, bool includeLinkedChildren = true)
{
if (user == null)
{
throw new ArgumentNullException("user");
}
var list = new List();
var hasLinkedChildren = AddChildrenToList(user, includeLinkedChildren, list, true, filter);
return hasLinkedChildren ? list.DistinctBy(i => i.Id).ToList() : list;
}
///
/// Gets the recursive children.
///
/// IList{BaseItem}.
public IList GetRecursiveChildren()
{
return GetRecursiveChildren(i => true);
}
///
/// Gets the recursive children.
///
/// The filter.
/// IEnumerable{BaseItem}.
public IList GetRecursiveChildren(Func filter)
{
var list = new List();
AddChildrenToList(list, true, filter);
return list;
}
///
/// Adds the children to list.
///
/// The list.
/// if set to true [recursive].
/// The filter.
private void AddChildrenToList(List list, bool recursive, Func filter)
{
foreach (var child in Children)
{
if (filter == null || filter(child))
{
list.Add(child);
}
if (recursive && child.IsFolder)
{
var folder = (Folder)child;
folder.AddChildrenToList(list, true, filter);
}
}
}
///
/// Gets the linked children.
///
/// IEnumerable{BaseItem}.
public IEnumerable GetLinkedChildren()
{
return LinkedChildren
.Select(GetLinkedChild)
.Where(i => i != null);
}
///
/// Gets the linked child.
///
/// The info.
/// BaseItem.
private BaseItem GetLinkedChild(LinkedChild info)
{
if (string.IsNullOrEmpty(info.Path))
{
throw new ArgumentException("Encountered linked child with empty path.");
}
BaseItem item = null;
// First get using the cached Id
if (info.ItemId != Guid.Empty)
{
item = LibraryManager.GetItemById(info.ItemId);
}
// If still null, search by path
if (item == null)
{
item = LibraryManager.RootFolder.FindByPath(info.Path);
}
// If still null, log
if (item == null)
{
Logger.Warn("Unable to find linked item at {0}", info.Path);
}
else
{
// Cache the id for next time
info.ItemId = item.Id;
}
return item;
}
public override async Task RefreshMetadata(CancellationToken cancellationToken, bool forceSave = false, bool forceRefresh = false, bool allowSlowProviders = true, bool resetResolveArgs = true)
{
var changed = await base.RefreshMetadata(cancellationToken, forceSave, forceRefresh, allowSlowProviders, resetResolveArgs).ConfigureAwait(false);
return changed || (SupportsShortcutChildren && LocationType == LocationType.FileSystem && RefreshLinkedChildren());
}
///
/// Refreshes the linked children.
///
/// true if XXXX, false otherwise
private bool RefreshLinkedChildren()
{
ItemResolveArgs resolveArgs;
try
{
resolveArgs = ResolveArgs;
if (!resolveArgs.IsDirectory)
{
return false;
}
}
catch (IOException ex)
{
Logger.ErrorException("Error getting ResolveArgs for {0}", ex, Path);
return false;
}
var currentManualLinks = LinkedChildren.Where(i => i.Type == LinkedChildType.Manual).ToList();
var currentShortcutLinks = LinkedChildren.Where(i => i.Type == LinkedChildType.Shortcut).ToList();
var newShortcutLinks = resolveArgs.FileSystemChildren
.Where(i => (i.Attributes & FileAttributes.Directory) != FileAttributes.Directory && FileSystem.IsShortcut(i.FullName))
.Select(i =>
{
try
{
Logger.Debug("Found shortcut at {0}", i.FullName);
var resolvedPath = FileSystem.ResolveShortcut(i.FullName);
if (!string.IsNullOrEmpty(resolvedPath))
{
return new LinkedChild
{
Path = resolvedPath,
Type = LinkedChildType.Shortcut
};
}
Logger.Error("Error resolving shortcut {0}", i.FullName);
return null;
}
catch (IOException ex)
{
Logger.ErrorException("Error resolving shortcut {0}", ex, i.FullName);
return null;
}
})
.Where(i => i != null)
.ToList();
if (!newShortcutLinks.SequenceEqual(currentShortcutLinks, new LinkedChildComparer()))
{
Logger.Info("Shortcut links have changed for {0}", Path);
newShortcutLinks.AddRange(currentManualLinks);
LinkedChildren = newShortcutLinks;
return true;
}
return false;
}
///
/// Folders need to validate and refresh
///
/// Task.
public override async Task ChangedExternally()
{
await base.ChangedExternally().ConfigureAwait(false);
var progress = new Progress();
await ValidateChildren(progress, CancellationToken.None).ConfigureAwait(false);
}
///
/// Marks the played.
///
/// The user.
/// The date played.
/// The user manager.
/// Task.
public override async Task MarkPlayed(User user, DateTime? datePlayed, IUserDataManager userManager)
{
// Sweep through recursively and update status
var tasks = GetRecursiveChildren(user, true).Where(i => !i.IsFolder && i.LocationType != LocationType.Virtual).Select(c => c.MarkPlayed(user, datePlayed, userManager));
await Task.WhenAll(tasks).ConfigureAwait(false);
}
///
/// Marks the unplayed.
///
/// The user.
/// The user manager.
/// Task.
public override async Task MarkUnplayed(User user, IUserDataManager userManager)
{
// Sweep through recursively and update status
var tasks = GetRecursiveChildren(user, true).Where(i => !i.IsFolder && i.LocationType != LocationType.Virtual).Select(c => c.MarkUnplayed(user, userManager));
await Task.WhenAll(tasks).ConfigureAwait(false);
}
///
/// Finds an item by path, recursively
///
/// The path.
/// BaseItem.
///
public BaseItem FindByPath(string path)
{
if (string.IsNullOrEmpty(path))
{
throw new ArgumentNullException();
}
try
{
var locationType = LocationType;
if (locationType == LocationType.Remote && string.Equals(Path, path, StringComparison.OrdinalIgnoreCase))
{
return this;
}
if (locationType != LocationType.Virtual && ResolveArgs.PhysicalLocations.Contains(path, StringComparer.OrdinalIgnoreCase))
{
return this;
}
}
catch (IOException ex)
{
Logger.ErrorException("Error getting ResolveArgs for {0}", ex, Path);
}
//this should be functionally equivilent to what was here since it is IEnum and works on a thread-safe copy
return RecursiveChildren.Where(i => i.LocationType != LocationType.Virtual).FirstOrDefault(i =>
{
if (i.LocationType == LocationType.Remote)
{
return string.Equals(i.Path, path, StringComparison.OrdinalIgnoreCase);
}
try
{
return i.ResolveArgs.PhysicalLocations.Contains(path, StringComparer.OrdinalIgnoreCase);
}
catch (IOException ex)
{
Logger.ErrorException("Error getting ResolveArgs for {0}", ex, Path);
return false;
}
});
}
}
}