#nullable disable #pragma warning disable CS1591 using System; using System.Buffers; using System.Buffers.Binary; using System.Globalization; using System.Net; using System.Net.Sockets; using System.Text; using System.Threading; using System.Threading.Tasks; using MediaBrowser.Common; using MediaBrowser.Controller.LiveTv; namespace Emby.Server.Implementations.LiveTv.TunerHosts.HdHomerun { public sealed class HdHomerunManager : IDisposable { public const int HdHomeRunPort = 65001; // Message constants private const byte GetSetName = 3; private const byte GetSetValue = 4; private const byte GetSetLockkey = 21; private const ushort GetSetRequest = 4; private const ushort GetSetReply = 5; private uint? _lockkey = null; private int _activeTuner = -1; private IPEndPoint _remoteEndPoint; private TcpClient _tcpClient; public void Dispose() { using (var socket = _tcpClient) { if (socket != null) { _tcpClient = null; StopStreaming(socket).GetAwaiter().GetResult(); } } GC.SuppressFinalize(this); } public async Task CheckTunerAvailability(IPAddress remoteIp, int tuner, CancellationToken cancellationToken) { using var client = new TcpClient(); client.Connect(remoteIp, HdHomeRunPort); using var stream = client.GetStream(); return await CheckTunerAvailability(stream, tuner, cancellationToken).ConfigureAwait(false); } private static async Task CheckTunerAvailability(NetworkStream stream, int tuner, CancellationToken cancellationToken) { byte[] buffer = ArrayPool.Shared.Rent(8192); try { var msgLen = WriteGetMessage(buffer, tuner, "lockkey"); await stream.WriteAsync(buffer.AsMemory(0, msgLen), cancellationToken).ConfigureAwait(false); int receivedBytes = await stream.ReadAsync(buffer, cancellationToken).ConfigureAwait(false); return VerifyReturnValueOfGetSet(buffer.AsSpan(receivedBytes), "none"); } finally { ArrayPool.Shared.Return(buffer); } } public async Task StartStreaming(IPAddress remoteIp, IPAddress localIp, int localPort, IHdHomerunChannelCommands commands, int numTuners, CancellationToken cancellationToken) { _remoteEndPoint = new IPEndPoint(remoteIp, HdHomeRunPort); _tcpClient = new TcpClient(); _tcpClient.Connect(_remoteEndPoint); if (!_lockkey.HasValue) { _lockkey = (uint)Random.Shared.Next(); } var lockKeyValue = _lockkey.Value; var stream = _tcpClient.GetStream(); byte[] buffer = ArrayPool.Shared.Rent(8192); try { for (int i = 0; i < numTuners; ++i) { if (!await CheckTunerAvailability(stream, i, cancellationToken).ConfigureAwait(false)) { continue; } _activeTuner = i; var lockKeyString = string.Format(CultureInfo.InvariantCulture, "{0:d}", lockKeyValue); var lockkeyMsgLen = WriteSetMessage(buffer, i, "lockkey", lockKeyString, null); await stream.WriteAsync(buffer.AsMemory(0, lockkeyMsgLen), cancellationToken).ConfigureAwait(false); int receivedBytes = await stream.ReadAsync(buffer, cancellationToken).ConfigureAwait(false); // parse response to make sure it worked if (!TryGetReturnValueOfGetSet(buffer.AsSpan(0, receivedBytes), out _)) { continue; } foreach (var command in commands.GetCommands()) { var channelMsgLen = WriteSetMessage(buffer, i, command.Item1, command.Item2, lockKeyValue); await stream.WriteAsync(buffer.AsMemory(0, channelMsgLen), cancellationToken).ConfigureAwait(false); receivedBytes = await stream.ReadAsync(buffer, cancellationToken).ConfigureAwait(false); // parse response to make sure it worked if (!TryGetReturnValueOfGetSet(buffer.AsSpan(0, receivedBytes), out _)) { await ReleaseLockkey(_tcpClient, lockKeyValue).ConfigureAwait(false); continue; } } var targetValue = string.Format(CultureInfo.InvariantCulture, "rtp://{0}:{1}", localIp, localPort); var targetMsgLen = WriteSetMessage(buffer, i, "target", targetValue, lockKeyValue); await stream.WriteAsync(buffer.AsMemory(0, targetMsgLen), cancellationToken).ConfigureAwait(false); receivedBytes = await stream.ReadAsync(buffer, cancellationToken).ConfigureAwait(false); // parse response to make sure it worked if (!TryGetReturnValueOfGetSet(buffer.AsSpan(0, receivedBytes), out _)) { await ReleaseLockkey(_tcpClient, lockKeyValue).ConfigureAwait(false); continue; } return; } } finally { ArrayPool.Shared.Return(buffer); } _activeTuner = -1; throw new LiveTvConflictException(); } public async Task ChangeChannel(IHdHomerunChannelCommands commands, CancellationToken cancellationToken) { if (!_lockkey.HasValue) { return; } using var tcpClient = new TcpClient(); tcpClient.Connect(_remoteEndPoint); using var stream = tcpClient.GetStream(); var commandList = commands.GetCommands(); byte[] buffer = ArrayPool.Shared.Rent(8192); try { foreach (var command in commandList) { var channelMsgLen = WriteSetMessage(buffer, _activeTuner, command.Item1, command.Item2, _lockkey); await stream.WriteAsync(buffer.AsMemory(0, channelMsgLen), cancellationToken).ConfigureAwait(false); int receivedBytes = await stream.ReadAsync(buffer, cancellationToken).ConfigureAwait(false); // parse response to make sure it worked if (!TryGetReturnValueOfGetSet(buffer.AsSpan(0, receivedBytes), out _)) { return; } } } finally { ArrayPool.Shared.Return(buffer); } } public Task StopStreaming(TcpClient client) { var lockKey = _lockkey; if (!lockKey.HasValue) { return Task.CompletedTask; } return ReleaseLockkey(client, lockKey.Value); } private async Task ReleaseLockkey(TcpClient client, uint lockKeyValue) { var stream = client.GetStream(); var buffer = ArrayPool.Shared.Rent(8192); try { var releaseTargetLen = WriteSetMessage(buffer, _activeTuner, "target", "none", lockKeyValue); await stream.WriteAsync(buffer.AsMemory(0, releaseTargetLen)).ConfigureAwait(false); await stream.ReadAsync(buffer).ConfigureAwait(false); var releaseKeyMsgLen = WriteSetMessage(buffer, _activeTuner, "lockkey", "none", lockKeyValue); _lockkey = null; await stream.WriteAsync(buffer.AsMemory(0, releaseKeyMsgLen)).ConfigureAwait(false); await stream.ReadAsync(buffer).ConfigureAwait(false); } finally { ArrayPool.Shared.Return(buffer); } } internal static int WriteGetMessage(Span buffer, int tuner, string name) { var byteName = string.Format(CultureInfo.InvariantCulture, "/tuner{0}/{1}", tuner, name); int offset = WriteHeaderAndPayload(buffer, byteName); return FinishPacket(buffer, offset); } internal static int WriteSetMessage(Span buffer, int tuner, string name, string value, uint? lockkey) { var byteName = string.Format(CultureInfo.InvariantCulture, "/tuner{0}/{1}", tuner, name); int offset = WriteHeaderAndPayload(buffer, byteName); buffer[offset++] = GetSetValue; offset += WriteNullTerminatedString(buffer.Slice(offset), value); if (lockkey.HasValue) { buffer[offset++] = GetSetLockkey; buffer[offset++] = 4; BinaryPrimitives.WriteUInt32BigEndian(buffer.Slice(offset), lockkey.Value); offset += 4; } return FinishPacket(buffer, offset); } internal static int WriteNullTerminatedString(Span buffer, ReadOnlySpan payload) { int len = Encoding.UTF8.GetBytes(payload, buffer.Slice(1)) + 1; // TODO: variable length: this can be 2 bytes if len > 127 // Write length in front of value buffer[0] = Convert.ToByte(len); // null-terminate buffer[len++] = 0; return len; } private static int WriteHeaderAndPayload(Span buffer, ReadOnlySpan payload) { // Packet type BinaryPrimitives.WriteUInt16BigEndian(buffer, GetSetRequest); // We write the payload length at the end int offset = 4; // Tag buffer[offset++] = GetSetName; // Payload length + data int strLen = WriteNullTerminatedString(buffer.Slice(offset), payload); offset += strLen; return offset; } private static int FinishPacket(Span buffer, int offset) { // Payload length BinaryPrimitives.WriteUInt16BigEndian(buffer.Slice(2), (ushort)(offset - 4)); // calculate crc and insert at the end of the message var crc = Crc32.Compute(buffer.Slice(0, offset)); BinaryPrimitives.WriteUInt32LittleEndian(buffer.Slice(offset), crc); return offset + 4; } internal static bool VerifyReturnValueOfGetSet(ReadOnlySpan buffer, string expected) { return TryGetReturnValueOfGetSet(buffer, out var value) && string.Equals(Encoding.UTF8.GetString(value), expected, StringComparison.OrdinalIgnoreCase); } internal static bool TryGetReturnValueOfGetSet(ReadOnlySpan buffer, out ReadOnlySpan value) { value = ReadOnlySpan.Empty; if (buffer.Length < 8) { return false; } uint crc = BinaryPrimitives.ReadUInt32LittleEndian(buffer[^4..]); if (crc != Crc32.Compute(buffer[..^4])) { return false; } if (BinaryPrimitives.ReadUInt16BigEndian(buffer) != GetSetReply) { return false; } var msgLength = BinaryPrimitives.ReadUInt16BigEndian(buffer.Slice(2)); if (buffer.Length != 2 + 2 + 4 + msgLength) { return false; } var offset = 4; if (buffer[offset++] != GetSetName) { return false; } var nameLength = buffer[offset++]; if (buffer.Length < 4 + 1 + offset + nameLength) { return false; } offset += nameLength; if (buffer[offset++] != GetSetValue) { return false; } var valueLength = buffer[offset++]; if (buffer.Length < 4 + offset + valueLength) { return false; } // remove null terminator value = buffer.Slice(offset, valueLength - 1); return true; } } }