sonarr-repo-only/NzbDrone.Core/RootFolders/RootFolderService.cs

142 lines
4.7 KiB
C#

using System.Linq;
using System;
using System.Collections.Generic;
using System.IO;
using NLog;
using NzbDrone.Common;
using NzbDrone.Core.Datastore;
using NzbDrone.Core.Tv;
namespace NzbDrone.Core.RootFolders
{
public interface IRootFolderService
{
List<RootFolder> All();
List<RootFolder> AllWithUnmappedFolders();
RootFolder Add(RootFolder rootDir);
void Remove(int id);
List<UnmappedFolder> GetUnmappedFolders(string path);
Dictionary<string, long> FreeSpaceOnDrives();
RootFolder Get(int id);
}
public class RootFolderService : IRootFolderService
{
private static readonly Logger Logger = LogManager.GetCurrentClassLogger();
private readonly IBasicRepository<RootFolder> _rootFolderRepository;
private readonly IDiskProvider _diskProvider;
private readonly ISeriesRepository _seriesRepository;
public RootFolderService(IBasicRepository<RootFolder> rootFolderRepository, IDiskProvider diskProvider,ISeriesRepository seriesRepository)
{
_rootFolderRepository = rootFolderRepository;
_diskProvider = diskProvider;
_seriesRepository = seriesRepository;
}
public virtual List<RootFolder> All()
{
var rootFolders = _rootFolderRepository.All().ToList();
return rootFolders;
}
public virtual List<RootFolder> AllWithUnmappedFolders()
{
var rootFolders = _rootFolderRepository.All().ToList();
rootFolders.ForEach(folder =>
{
if (_diskProvider.FolderExists(folder.Path))
{
folder.FreeSpace = _diskProvider.GetAvilableSpace(folder.Path);
folder.UnmappedFolders = GetUnmappedFolders(folder.Path);
}
});
return rootFolders;
}
public virtual RootFolder Add(RootFolder rootFolder)
{
if (String.IsNullOrWhiteSpace(rootFolder.Path) || !Path.IsPathRooted(rootFolder.Path))
throw new ArgumentException("Invalid path");
if (!_diskProvider.FolderExists(rootFolder.Path))
throw new DirectoryNotFoundException("Can't add root directory that doesn't exist.");
if (All().Exists(r => DiskProvider.PathEquals(r.Path, rootFolder.Path)))
throw new InvalidOperationException("Root directory already exist.");
_rootFolderRepository.Insert(rootFolder);
rootFolder.FreeSpace = _diskProvider.GetAvilableSpace(rootFolder.Path);
rootFolder.UnmappedFolders = GetUnmappedFolders(rootFolder.Path);
return rootFolder;
}
public virtual void Remove(int id)
{
_rootFolderRepository.Delete(id);
}
public virtual List<UnmappedFolder> GetUnmappedFolders(string path)
{
Logger.Debug("Generating list of unmapped folders");
if (String.IsNullOrEmpty(path))
throw new ArgumentException("Invalid path provided", "path");
var results = new List<UnmappedFolder>();
var series = _seriesRepository.All();
if (!_diskProvider.FolderExists(path))
{
Logger.Debug("Path supplied does not exist: {0}", path);
return results;
}
foreach (string seriesFolder in _diskProvider.GetDirectories(path))
{
if (!series.Any(s => s.Path == seriesFolder))
{
var di = new DirectoryInfo(seriesFolder.Normalize());
results.Add(new UnmappedFolder{ Name = di.Name, Path = di.FullName });
}
}
Logger.Debug("{0} unmapped folders detected.", results.Count);
return results;
}
public virtual Dictionary<string, long> FreeSpaceOnDrives()
{
var freeSpace = new Dictionary<string, long>();
var rootDirs = All();
foreach (var rootDir in rootDirs)
{
var pathRoot = _diskProvider.GetPathRoot(rootDir.Path);
if (!freeSpace.ContainsKey(pathRoot))
{
try
{
freeSpace.Add(pathRoot, _diskProvider.GetAvilableSpace(rootDir.Path));
}
catch (Exception ex)
{
Logger.WarnException("Error getting disk space for: " + pathRoot, ex);
}
}
}
return freeSpace;
}
public RootFolder Get(int id)
{
return _rootFolderRepository.Get(id);
}
}
}