using System; using System.Collections.Generic; using System.Collections.ObjectModel; using System.Linq; using System.Net; using System.Threading; using System.Threading.Tasks; using MediaBrowser.Common.Net; namespace Rssdp.Infrastructure { /// /// Provides the platform independent logic for publishing SSDP devices (notifications and search responses). /// public class SsdpDevicePublisher : DisposableManagedObjectBase, ISsdpDevicePublisher { private readonly INetworkManager _networkManager; private ISsdpCommunicationsServer _CommsServer; private string _OSName; private string _OSVersion; private bool _sendOnlyMatchedHost; private bool _SupportPnpRootDevice; private IList _Devices; private IReadOnlyList _ReadOnlyDevices; private Timer _RebroadcastAliveNotificationsTimer; private IDictionary _RecentSearchRequests; private Random _Random; private const string ServerVersion = "1.0"; /// /// Default constructor. /// public SsdpDevicePublisher(ISsdpCommunicationsServer communicationsServer, INetworkManager networkManager, string osName, string osVersion, bool sendOnlyMatchedHost) { if (communicationsServer == null) { throw new ArgumentNullException(nameof(communicationsServer)); } if (networkManager == null) { throw new ArgumentNullException(nameof(networkManager)); } if (osName == null) { throw new ArgumentNullException(nameof(osName)); } if (osName.Length == 0) { throw new ArgumentException("osName cannot be an empty string.", nameof(osName)); } if (osVersion == null) { throw new ArgumentNullException(nameof(osVersion)); } if (osVersion.Length == 0) { throw new ArgumentException("osVersion cannot be an empty string.", nameof(osName)); } _SupportPnpRootDevice = true; _Devices = new List(); _ReadOnlyDevices = new ReadOnlyCollection(_Devices); _RecentSearchRequests = new Dictionary(StringComparer.OrdinalIgnoreCase); _Random = new Random(); _networkManager = networkManager; _CommsServer = communicationsServer; _CommsServer.RequestReceived += CommsServer_RequestReceived; _OSName = osName; _OSVersion = osVersion; _sendOnlyMatchedHost = sendOnlyMatchedHost; _CommsServer.BeginListeningForBroadcasts(); } public void StartBroadcastingAliveMessages(TimeSpan interval) { _RebroadcastAliveNotificationsTimer = new Timer(SendAllAliveNotifications, null, TimeSpan.FromSeconds(5), interval); } /// /// Adds a device (and it's children) to the list of devices being published by this server, making them discoverable to SSDP clients. /// /// /// Adding a device causes "alive" notification messages to be sent immediately, or very soon after. Ensure your device/description service is running before adding the device object here. /// Devices added here with a non-zero cache life time will also have notifications broadcast periodically. /// This method ignores duplicate device adds (if the same device instance is added multiple times, the second and subsequent add calls do nothing). /// /// The instance to add. /// Thrown if the argument is null. /// Thrown if the contains property values that are not acceptable to the UPnP 1.0 specification. [System.Diagnostics.CodeAnalysis.SuppressMessage("Microsoft.Performance", "CA1804:RemoveUnusedLocals", MessageId = "t", Justification = "Capture task to local variable suppresses compiler warning, but task is not really needed.")] public void AddDevice(SsdpRootDevice device) { if (device == null) { throw new ArgumentNullException(nameof(device)); } ThrowIfDisposed(); bool wasAdded = false; lock (_Devices) { if (!_Devices.Contains(device)) { _Devices.Add(device); wasAdded = true; } } if (wasAdded) { WriteTrace("Device Added", device); SendAliveNotifications(device, true, CancellationToken.None); } } /// /// Removes a device (and it's children) from the list of devices being published by this server, making them undiscoverable. /// /// /// Removing a device causes "byebye" notification messages to be sent immediately, advising clients of the device/service becoming unavailable. We recommend removing the device from the published list before shutting down the actual device/service, if possible. /// This method does nothing if the device was not found in the collection. /// /// The instance to add. /// Thrown if the argument is null. public async Task RemoveDevice(SsdpRootDevice device) { if (device == null) { throw new ArgumentNullException(nameof(device)); } bool wasRemoved = false; lock (_Devices) { if (_Devices.Contains(device)) { _Devices.Remove(device); wasRemoved = true; } } if (wasRemoved) { WriteTrace("Device Removed", device); await SendByeByeNotifications(device, true, CancellationToken.None).ConfigureAwait(false); } } /// /// Returns a read only list of devices being published by this instance. /// public IEnumerable Devices { get { return _ReadOnlyDevices; } } /// /// If true (default) treats root devices as both upnp:rootdevice and pnp:rootdevice types. /// /// /// Enabling this option will cause devices to show up in Microsoft Windows Explorer's network screens (if discovery is enabled etc.). Windows Explorer appears to search only for pnp:rootdeivce and not upnp:rootdevice. /// If false, the system will only use upnp:rootdevice for notification broadcasts and and search responses, which is correct according to the UPnP/SSDP spec. /// public bool SupportPnpRootDevice { get { return _SupportPnpRootDevice; } set { _SupportPnpRootDevice = value; } } /// /// Stops listening for requests, stops sending periodic broadcasts, disposes all internal resources. /// /// protected override void Dispose(bool disposing) { if (disposing) { DisposeRebroadcastTimer(); var commsServer = _CommsServer; if (commsServer != null) { commsServer.RequestReceived -= this.CommsServer_RequestReceived; } var tasks = Devices.ToList().Select(RemoveDevice).ToArray(); Task.WaitAll(tasks); _CommsServer = null; if (commsServer != null) { if (!commsServer.IsShared) { commsServer.Dispose(); } } _RecentSearchRequests = null; } } private void ProcessSearchRequest( string mx, string searchTarget, IPEndPoint remoteEndPoint, IPAddress receivedOnlocalIpAddress, CancellationToken cancellationToken) { if (String.IsNullOrEmpty(searchTarget)) { WriteTrace(String.Format("Invalid search request received From {0}, Target is null/empty.", remoteEndPoint.ToString())); return; } // WriteTrace(String.Format("Search Request Received From {0}, Target = {1}", remoteEndPoint.ToString(), searchTarget)); if (IsDuplicateSearchRequest(searchTarget, remoteEndPoint)) { // WriteTrace("Search Request is Duplicate, ignoring."); return; } // Wait on random interval up to MX, as per SSDP spec. // Also, as per UPnP 1.1/SSDP spec ignore missing/bank MX header. If over 120, assume random value between 0 and 120. // Using 16 as minimum as that's often the minimum system clock frequency anyway. int maxWaitInterval = 0; if (String.IsNullOrEmpty(mx)) { // Windows Explorer is poorly behaved and doesn't supply an MX header value. // if (this.SupportPnpRootDevice) mx = "1"; // else // return; } if (!Int32.TryParse(mx, out maxWaitInterval) || maxWaitInterval <= 0) { return; } if (maxWaitInterval > 120) { maxWaitInterval = _Random.Next(0, 120); } // Do not block synchronously as that may tie up a threadpool thread for several seconds. Task.Delay(_Random.Next(16, (maxWaitInterval * 1000))).ContinueWith((parentTask) => { // Copying devices to local array here to avoid threading issues/enumerator exceptions. IEnumerable devices = null; lock (_Devices) { if (String.Compare(SsdpConstants.SsdpDiscoverAllSTHeader, searchTarget, StringComparison.OrdinalIgnoreCase) == 0) { devices = GetAllDevicesAsFlatEnumerable().ToArray(); } else if (String.Compare(SsdpConstants.UpnpDeviceTypeRootDevice, searchTarget, StringComparison.OrdinalIgnoreCase) == 0 || (this.SupportPnpRootDevice && String.Compare(SsdpConstants.PnpDeviceTypeRootDevice, searchTarget, StringComparison.OrdinalIgnoreCase) == 0)) { devices = _Devices.ToArray(); } else if (searchTarget.Trim().StartsWith("uuid:", StringComparison.OrdinalIgnoreCase)) { devices = (from device in GetAllDevicesAsFlatEnumerable() where String.Compare(device.Uuid, searchTarget.Substring(5), StringComparison.OrdinalIgnoreCase) == 0 select device).ToArray(); } else if (searchTarget.StartsWith("urn:", StringComparison.OrdinalIgnoreCase)) { devices = (from device in GetAllDevicesAsFlatEnumerable() where String.Compare(device.FullDeviceType, searchTarget, StringComparison.OrdinalIgnoreCase) == 0 select device).ToArray(); } } if (devices != null) { var deviceList = devices.ToList(); // WriteTrace(String.Format("Sending {0} search responses", deviceList.Count)); foreach (var device in deviceList) { var root = device.ToRootDevice(); var source = new IPNetAddress(root.Address, root.PrefixLength); var destination = new IPNetAddress(remoteEndPoint.Address, root.PrefixLength); if (!_sendOnlyMatchedHost || source.NetworkAddress.Equals(destination.NetworkAddress)) { SendDeviceSearchResponses(device, remoteEndPoint, receivedOnlocalIpAddress, cancellationToken); } } } }); } private IEnumerable GetAllDevicesAsFlatEnumerable() { return _Devices.Union(_Devices.SelectManyRecursive((d) => d.Devices)); } private void SendDeviceSearchResponses( SsdpDevice device, IPEndPoint endPoint, IPAddress receivedOnlocalIpAddress, CancellationToken cancellationToken) { bool isRootDevice = (device as SsdpRootDevice) != null; if (isRootDevice) { SendSearchResponse(SsdpConstants.UpnpDeviceTypeRootDevice, device, GetUsn(device.Udn, SsdpConstants.UpnpDeviceTypeRootDevice), endPoint, receivedOnlocalIpAddress, cancellationToken); if (this.SupportPnpRootDevice) { SendSearchResponse(SsdpConstants.PnpDeviceTypeRootDevice, device, GetUsn(device.Udn, SsdpConstants.PnpDeviceTypeRootDevice), endPoint, receivedOnlocalIpAddress, cancellationToken); } } SendSearchResponse(device.Udn, device, device.Udn, endPoint, receivedOnlocalIpAddress, cancellationToken); SendSearchResponse(device.FullDeviceType, device, GetUsn(device.Udn, device.FullDeviceType), endPoint, receivedOnlocalIpAddress, cancellationToken); } private string GetUsn(string udn, string fullDeviceType) { return String.Format("{0}::{1}", udn, fullDeviceType); } private async void SendSearchResponse( string searchTarget, SsdpDevice device, string uniqueServiceName, IPEndPoint endPoint, IPAddress receivedOnlocalIpAddress, CancellationToken cancellationToken) { var rootDevice = device.ToRootDevice(); // var additionalheaders = FormatCustomHeadersForResponse(device); const string header = "HTTP/1.1 200 OK"; var values = new Dictionary(StringComparer.OrdinalIgnoreCase); values["EXT"] = ""; values["DATE"] = DateTime.UtcNow.ToString("r"); values["CACHE-CONTROL"] = "max-age = " + rootDevice.CacheLifetime.TotalSeconds; values["ST"] = searchTarget; values["SERVER"] = string.Format("{0}/{1} UPnP/1.0 RSSDP/{2}", _OSName, _OSVersion, ServerVersion); values["USN"] = uniqueServiceName; values["LOCATION"] = rootDevice.Location.ToString(); var message = BuildMessage(header, values); try { await _CommsServer.SendMessage( System.Text.Encoding.UTF8.GetBytes(message), endPoint, receivedOnlocalIpAddress, cancellationToken) .ConfigureAwait(false); } catch (Exception) { } // WriteTrace(String.Format("Sent search response to " + endPoint.ToString()), device); } private bool IsDuplicateSearchRequest(string searchTarget, IPEndPoint endPoint) { var isDuplicateRequest = false; var newRequest = new SearchRequest() { EndPoint = endPoint, SearchTarget = searchTarget, Received = DateTime.UtcNow }; lock (_RecentSearchRequests) { if (_RecentSearchRequests.ContainsKey(newRequest.Key)) { var lastRequest = _RecentSearchRequests[newRequest.Key]; if (lastRequest.IsOld()) { _RecentSearchRequests[newRequest.Key] = newRequest; } else { isDuplicateRequest = true; } } else { _RecentSearchRequests.Add(newRequest.Key, newRequest); if (_RecentSearchRequests.Count > 10) { CleanUpRecentSearchRequestsAsync(); } } } return isDuplicateRequest; } private void CleanUpRecentSearchRequestsAsync() { lock (_RecentSearchRequests) { foreach (var requestKey in (from r in _RecentSearchRequests where r.Value.IsOld() select r.Key).ToArray()) { _RecentSearchRequests.Remove(requestKey); } } } private void SendAllAliveNotifications(object state) { try { if (IsDisposed) { return; } // WriteTrace("Begin Sending Alive Notifications For All Devices"); SsdpRootDevice[] devices; lock (_Devices) { devices = _Devices.ToArray(); } foreach (var device in devices) { if (IsDisposed) { return; } SendAliveNotifications(device, true, CancellationToken.None); } // WriteTrace("Completed Sending Alive Notifications For All Devices"); } catch (ObjectDisposedException ex) { WriteTrace("Publisher stopped, exception " + ex.Message); Dispose(); } } private void SendAliveNotifications(SsdpDevice device, bool isRoot, CancellationToken cancellationToken) { if (isRoot) { SendAliveNotification(device, SsdpConstants.UpnpDeviceTypeRootDevice, GetUsn(device.Udn, SsdpConstants.UpnpDeviceTypeRootDevice), cancellationToken); if (this.SupportPnpRootDevice) { SendAliveNotification(device, SsdpConstants.PnpDeviceTypeRootDevice, GetUsn(device.Udn, SsdpConstants.PnpDeviceTypeRootDevice), cancellationToken); } } SendAliveNotification(device, device.Udn, device.Udn, cancellationToken); SendAliveNotification(device, device.FullDeviceType, GetUsn(device.Udn, device.FullDeviceType), cancellationToken); foreach (var childDevice in device.Devices) { SendAliveNotifications(childDevice, false, cancellationToken); } } private void SendAliveNotification(SsdpDevice device, string notificationType, string uniqueServiceName, CancellationToken cancellationToken) { var rootDevice = device.ToRootDevice(); const string header = "NOTIFY * HTTP/1.1"; var values = new Dictionary(StringComparer.OrdinalIgnoreCase); // If needed later for non-server devices, these headers will need to be dynamic values["HOST"] = "239.255.255.250:1900"; values["DATE"] = DateTime.UtcNow.ToString("r"); values["CACHE-CONTROL"] = "max-age = " + rootDevice.CacheLifetime.TotalSeconds; values["LOCATION"] = rootDevice.Location.ToString(); values["SERVER"] = string.Format("{0}/{1} UPnP/1.0 RSSDP/{2}", _OSName, _OSVersion, ServerVersion); values["NTS"] = "ssdp:alive"; values["NT"] = notificationType; values["USN"] = uniqueServiceName; var message = BuildMessage(header, values); _CommsServer.SendMulticastMessage(message, _sendOnlyMatchedHost ? rootDevice.Address : null, cancellationToken); // WriteTrace(String.Format("Sent alive notification"), device); } private Task SendByeByeNotifications(SsdpDevice device, bool isRoot, CancellationToken cancellationToken) { var tasks = new List(); if (isRoot) { tasks.Add(SendByeByeNotification(device, SsdpConstants.UpnpDeviceTypeRootDevice, GetUsn(device.Udn, SsdpConstants.UpnpDeviceTypeRootDevice), cancellationToken)); if (this.SupportPnpRootDevice) { tasks.Add(SendByeByeNotification(device, "pnp:rootdevice", GetUsn(device.Udn, "pnp:rootdevice"), cancellationToken)); } } tasks.Add(SendByeByeNotification(device, device.Udn, device.Udn, cancellationToken)); tasks.Add(SendByeByeNotification(device, String.Format("urn:{0}", device.FullDeviceType), GetUsn(device.Udn, device.FullDeviceType), cancellationToken)); foreach (var childDevice in device.Devices) { tasks.Add(SendByeByeNotifications(childDevice, false, cancellationToken)); } return Task.WhenAll(tasks); } [System.Diagnostics.CodeAnalysis.SuppressMessage("Microsoft.Naming", "CA2204:Literals should be spelled correctly", MessageId = "byebye", Justification = "Correct value for this type of notification in SSDP.")] private Task SendByeByeNotification(SsdpDevice device, string notificationType, string uniqueServiceName, CancellationToken cancellationToken) { const string header = "NOTIFY * HTTP/1.1"; var values = new Dictionary(StringComparer.OrdinalIgnoreCase); // If needed later for non-server devices, these headers will need to be dynamic values["HOST"] = "239.255.255.250:1900"; values["DATE"] = DateTime.UtcNow.ToString("r"); values["SERVER"] = string.Format("{0}/{1} UPnP/1.0 RSSDP/{2}", _OSName, _OSVersion, ServerVersion); values["NTS"] = "ssdp:byebye"; values["NT"] = notificationType; values["USN"] = uniqueServiceName; var message = BuildMessage(header, values); var sendCount = IsDisposed ? 1 : 3; WriteTrace(String.Format("Sent byebye notification"), device); return _CommsServer.SendMulticastMessage(message, sendCount, _sendOnlyMatchedHost ? device.ToRootDevice().Address : null, cancellationToken); } private void DisposeRebroadcastTimer() { var timer = _RebroadcastAliveNotificationsTimer; _RebroadcastAliveNotificationsTimer = null; if (timer != null) { timer.Dispose(); } } private TimeSpan GetMinimumNonZeroCacheLifetime() { var nonzeroCacheLifetimesQuery = ( from device in _Devices where device.CacheLifetime != TimeSpan.Zero select device.CacheLifetime).ToList(); if (nonzeroCacheLifetimesQuery.Any()) { return nonzeroCacheLifetimesQuery.Min(); } else { return TimeSpan.Zero; } } private string GetFirstHeaderValue(System.Net.Http.Headers.HttpRequestHeaders httpRequestHeaders, string headerName) { string retVal = null; IEnumerable values = null; if (httpRequestHeaders.TryGetValues(headerName, out values) && values != null) { retVal = values.FirstOrDefault(); } return retVal; } public Action LogFunction { get; set; } private void WriteTrace(string text) { if (LogFunction != null) { LogFunction(text); } // System.Diagnostics.Debug.WriteLine(text, "SSDP Publisher"); } private void WriteTrace(string text, SsdpDevice device) { var rootDevice = device as SsdpRootDevice; if (rootDevice != null) { WriteTrace(text + " " + device.DeviceType + " - " + device.Uuid + " - " + rootDevice.Location); } else { WriteTrace(text + " " + device.DeviceType + " - " + device.Uuid); } } private void CommsServer_RequestReceived(object sender, RequestReceivedEventArgs e) { if (this.IsDisposed) { return; } if (string.Equals(e.Message.Method.Method, SsdpConstants.MSearchMethod, StringComparison.OrdinalIgnoreCase)) { // According to SSDP/UPnP spec, ignore message if missing these headers. // Edit: But some devices do it anyway // if (!e.Message.Headers.Contains("MX")) // WriteTrace("Ignoring search request - missing MX header."); // else if (!e.Message.Headers.Contains("MAN")) // WriteTrace("Ignoring search request - missing MAN header."); // else ProcessSearchRequest(GetFirstHeaderValue(e.Message.Headers, "MX"), GetFirstHeaderValue(e.Message.Headers, "ST"), e.ReceivedFrom, e.LocalIpAddress, CancellationToken.None); } } private class SearchRequest { public IPEndPoint EndPoint { get; set; } public DateTime Received { get; set; } public string SearchTarget { get; set; } public string Key { get { return this.SearchTarget + ":" + this.EndPoint.ToString(); } } public bool IsOld() { return DateTime.UtcNow.Subtract(this.Received).TotalMilliseconds > 500; } } } }