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WTelegramClient/src/Client.cs
Wizou 30f20fad0e [rollback] Use records for TL methods 
It was a nice idea and it worked but it made the lib 3x larger just for sugar syntax in generated code
2021-11-10 02:17:08 +01:00

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using System;
using System.Buffers.Binary;
using System.Collections.Generic;
using System.Globalization;
using System.IO;
using System.Linq;
using System.Net;
using System.Net.Sockets;
using System.Reflection;
using System.Security.Cryptography;
using System.Text;
using System.Threading;
using System.Threading.Tasks;
using TL;
using static WTelegram.Encryption;
// necessary for .NET Standard 2.0 compilation:
#pragma warning disable CA1835 // Prefer the 'Memory'-based overloads for 'ReadAsync' and 'WriteAsync'
namespace WTelegram
{
public sealed class Client : IDisposable
{
/// <summary>This event will be called when an unsollicited update/message is sent by Telegram servers</summary>
/// <remarks>See <see href="https://github.com/wiz0u/WTelegramClient/tree/master/Examples/Program_ListenUpdate.cs">Examples/Program_ListenUpdate.cs</see> for how to use this</remarks>
public event Action<IObject> Update;
public delegate Task<TcpClient> TcpFactory(string address, int port);
/// <summary>Used to create a TcpClient connected to the given address/port, or throw an exception on failure</summary>
public TcpFactory TcpHandler = DefaultTcpHandler;
/// <summary>Telegram configuration, obtained at connection time</summary>
public Config TLConfig { get; private set; }
/// <summary>Number of automatic reconnections on connection/reactor failure</summary>
public int MaxAutoReconnects { get; set; } = 5;
/// <summary>Is this Client instance the main or a secondary DC session</summary>
public bool IsMainDC => (_dcSession?.DataCenter?.id ?? 0) == _session.MainDC;
/// <summary>Is this Client currently disconnected?</summary>
public bool Disconnected => _tcpClient != null && !(_tcpClient.Client?.Connected ?? false);
private readonly Func<string, string> _config;
private readonly int _apiId;
private readonly string _apiHash;
private readonly Session _session;
private Session.DCSession _dcSession;
private static readonly byte[] IntermediateHeader = new byte[4] { 0xee, 0xee, 0xee, 0xee };
private TcpClient _tcpClient;
private NetworkStream _networkStream;
private IObject _lastSentMsg;
private long _lastRecvMsgId;
private readonly List<long> _msgsToAck = new();
private readonly Random _random = new();
private int _saltChangeCounter;
private Task _reactorTask;
private long _bareRequest;
private readonly Dictionary<long, (Type type, TaskCompletionSource<object> tcs)> _pendingRequests = new();
private SemaphoreSlim _sendSemaphore = new(0);
private readonly SemaphoreSlim _semaphore = new(1);
private Task _connecting;
private CancellationTokenSource _cts;
private int _reactorReconnects = 0;
private const int FilePartSize = 512 * 1024;
private readonly SemaphoreSlim _parallelTransfers = new(10); // max parallel part uploads/downloads
#if MTPROTO1
private readonly SHA1 _sha1 = SHA1.Create();
private readonly SHA1 _sha1Recv = SHA1.Create();
#else
private readonly SHA256 _sha256 = SHA256.Create();
private readonly SHA256 _sha256Recv = SHA256.Create();
#endif
/// <summary>Welcome to WTelegramClient! 🙂</summary>
/// <param name="configProvider">Config callback, is queried for: <b>api_id</b>, <b>api_hash</b>, <b>session_pathname</b></param>
public Client(Func<string, string> configProvider = null)
{
_config = configProvider ?? DefaultConfigOrAsk;
_apiId = int.Parse(Config("api_id"));
_apiHash = Config("api_hash");
_session = Session.LoadOrCreate(Config("session_pathname"), Convert.FromHexString(_apiHash));
if (_session.MainDC != 0) _session.DCSessions.TryGetValue(_session.MainDC, out _dcSession);
_dcSession ??= new() { Id = Helpers.RandomLong() };
_dcSession.Client = this;
var version = Assembly.GetExecutingAssembly().GetCustomAttribute<AssemblyInformationalVersionAttribute>().InformationalVersion;
Helpers.Log(1, $"WTelegramClient {version[..version.IndexOf('+')]} running under {System.Runtime.InteropServices.RuntimeInformation.FrameworkDescription}");
}
private Client(Client cloneOf, Session.DCSession dcSession)
{
_config = cloneOf._config;
_apiId = cloneOf._apiId;
_apiHash = cloneOf._apiHash;
_session = cloneOf._session;
_dcSession = dcSession;
}
internal string Config(string config)
=> _config(config) ?? DefaultConfig(config) ?? throw new ApplicationException("You must provide a config value for " + config);
/// <summary>Default config values, used if your Config callback returns <see langword="null"/></summary>
public static string DefaultConfig(string config) => config switch
{
"session_pathname" => Path.Combine(
Path.GetDirectoryName(Path.GetDirectoryName(AppDomain.CurrentDomain.BaseDirectory.TrimEnd(Path.DirectorySeparatorChar))),
"WTelegram.session"),
#if DEBUG
"server_address" => "149.154.167.40:443",
#else
"server_address" => "149.154.167.50:443",
#endif
"device_model" => Environment.Is64BitOperatingSystem ? "PC 64bit" : "PC 32bit",
"system_version" => System.Runtime.InteropServices.RuntimeInformation.OSDescription,
"app_version" => Assembly.GetEntryAssembly().GetName().Version.ToString(),
"system_lang_code" => CultureInfo.InstalledUICulture.TwoLetterISOLanguageName,
"lang_pack" => "",
"lang_code" => CultureInfo.CurrentUICulture.TwoLetterISOLanguageName,
"user_id" => "-1",
"verification_code" or "password" => AskConfig(config),
_ => null // api_id api_hash phone_number... it's up to you to reply to these correctly
};
internal static string DefaultConfigOrAsk(string config) => DefaultConfig(config) ?? AskConfig(config);
private static string AskConfig(string config)
{
if (config == "api_id") Console.WriteLine("Welcome! You can obtain your api_id/api_hash at https://my.telegram.org/apps");
Console.Write($"Enter {config.Replace('_', ' ')}: ");
return Console.ReadLine();
}
/// <summary>Load a specific Telegram server public key</summary>
/// <param name="pem">A string starting with <c>-----BEGIN RSA PUBLIC KEY-----</c></param>
public static void LoadPublicKey(string pem) => Encryption.LoadPublicKey(pem);
public void Dispose()
{
Helpers.Log(2, $"{_dcSession.DcID}>Disposing the client");
Reset(false, IsMainDC);
}
/// <summary>Disconnect from Telegram <i>(shouldn't be needed in normal usage)</i></summary>
/// <param name="resetUser">Forget about logged-in user</param>
/// <param name="resetSessions">Disconnect secondary sessions with other DCs</param>
public void Reset(bool resetUser = true, bool resetSessions = true)
{
try
{
if (CheckMsgsToAck() is MsgsAck msgsAck)
SendAsync(msgsAck, false).Wait(1000);
}
catch (Exception)
{
}
_cts?.Cancel();
_sendSemaphore = new(0);
_reactorTask = null;
_tcpClient?.Dispose();
_connecting = null;
if (resetSessions)
{
foreach (var altSession in _session.DCSessions.Values)
if (altSession.Client != null && altSession.Client != this)
{
altSession.Client.Dispose();
altSession.Client = null;
}
}
if (resetUser)
_session.UserId = 0;
}
/// <summary>Establish connection to Telegram servers</summary>
/// <remarks>Config callback is queried for: <b>server_address</b></remarks>
/// <returns>Most methods of this class are async (Task), so please use <see langword="await"/></returns>
public async Task ConnectAsync()
{
lock (this)
_connecting ??= DoConnectAsync();
await _connecting;
}
static async Task<TcpClient> DefaultTcpHandler(string host, int port)
{
var tcpClient = new TcpClient();
try
{
await tcpClient.ConnectAsync(host, port);
}
catch (Exception)
{
tcpClient.Dispose();
throw;
}
return tcpClient;
}
private async Task DoConnectAsync()
{
var endpoint = _dcSession?.EndPoint ?? Compat.IPEndPoint_Parse(Config("server_address"));
Helpers.Log(2, $"Connecting to {endpoint}...");
TcpClient tcpClient = null;
try
{
try
{
tcpClient = await TcpHandler(endpoint.Address.ToString(), endpoint.Port);
}
catch (SocketException ex) // cannot connect to target endpoint, try to find an alternate
{
Helpers.Log(4, $"SocketException {ex.SocketErrorCode} ({ex.ErrorCode}): {ex.Message}");
if (_dcSession?.DataCenter == null) throw;
var triedEndpoints = new HashSet<IPEndPoint> { endpoint };
if (_session.DcOptions != null)
{
var altOptions = _session.DcOptions.Where(dco => dco.id == _dcSession.DataCenter.id && dco.flags != _dcSession.DataCenter.flags
&& (dco.flags & (DcOption.Flags.cdn | DcOption.Flags.tcpo_only | DcOption.Flags.media_only)) == 0)
.OrderBy(dco => dco.flags);
// try alternate addresses for this DC
foreach (var dcOption in altOptions)
{
endpoint = new(IPAddress.Parse(dcOption.ip_address), dcOption.port);
if (!triedEndpoints.Add(endpoint)) continue;
Helpers.Log(2, $"Connecting to {endpoint}...");
try
{
tcpClient = await TcpHandler(endpoint.Address.ToString(), endpoint.Port);
_dcSession.DataCenter = dcOption;
break;
}
catch (SocketException) { }
}
}
if (tcpClient == null)
{
endpoint = Compat.IPEndPoint_Parse(Config("server_address")); // re-ask callback for an address
if (!triedEndpoints.Add(endpoint)) throw;
_dcSession.Client = null;
// is it address for a known DCSession?
_dcSession = _session.DCSessions.Values.FirstOrDefault(dcs => dcs.EndPoint.Equals(endpoint));
_dcSession ??= new() { Id = Helpers.RandomLong() };
_dcSession.Client = this;
Helpers.Log(2, $"Connecting to {endpoint}...");
tcpClient = await TcpHandler(endpoint.Address.ToString(), endpoint.Port);
}
}
}
catch (Exception)
{
tcpClient?.Dispose();
throw;
}
_tcpClient = tcpClient;
_networkStream = tcpClient.GetStream();
await _networkStream.WriteAsync(IntermediateHeader, 0, 4);
_cts = new();
_saltChangeCounter = 0;
_reactorTask = Reactor(_networkStream, _cts);
_sendSemaphore.Release();
try
{
if (_dcSession.AuthKeyID == 0)
await CreateAuthorizationKey(this, _dcSession);
var keepAliveTask = KeepAlive(_cts.Token);
TLConfig = await this.InvokeWithLayer(Layer.Version,
new Schema.InitConnection_<Config>
{
api_id = _apiId,
device_model = Config("device_model"),
system_version = Config("system_version"),
app_version = Config("app_version"),
system_lang_code = Config("system_lang_code"),
lang_pack = Config("lang_pack"),
lang_code = Config("lang_code"),
query = new Schema.Help_GetConfig_()
});
_session.DcOptions = TLConfig.dc_options;
_saltChangeCounter = 0;
if (_dcSession.DataCenter == null)
{
_dcSession.DataCenter = _session.DcOptions.Where(dc => dc.id == TLConfig.this_dc)
.OrderByDescending(dc => dc.ip_address == endpoint.Address.ToString())
.ThenByDescending(dc => dc.port == endpoint.Port).First();
_session.DCSessions[TLConfig.this_dc] = _dcSession;
}
if (_session.MainDC == 0) _session.MainDC = TLConfig.this_dc;
}
finally
{
_session.Save();
}
Helpers.Log(2, $"Connected to {(TLConfig.test_mode ? "Test DC" : "DC")} {TLConfig.this_dc}... {TLConfig.flags & (Config.Flags)~0xE00}");
}
/// <summary>Obtain/create a Client for a secondary session on a specific Data Center</summary>
/// <param name="dcId">ID of the Data Center</param>
/// <param name="media_only">Session will be used only for transferring media</param>
/// <param name="connect">Connect immediately</param>
/// <returns></returns>
public async Task<Client> GetClientForDC(int dcId, bool media_only = true, bool connect = true)
{
if (_dcSession.DataCenter?.id == dcId) return this;
Session.DCSession altSession;
lock (_session)
{
altSession = GetOrCreateDCSession(dcId, _dcSession.DataCenter.flags | (media_only ? DcOption.Flags.media_only : 0));
if (altSession.Client?.Disconnected ?? false) { altSession.Client.Dispose(); altSession.Client = null; }
altSession.Client ??= new Client(this, altSession);
}
Helpers.Log(2, $"Requested connection to DC {dcId}...");
if (connect)
{
await _semaphore.WaitAsync();
try
{
Auth_ExportedAuthorization exported = null;
if (_session.UserId != 0 && IsMainDC && altSession.UserId != _session.UserId)
exported = await this.Auth_ExportAuthorization(dcId);
await altSession.Client.ConnectAsync();
if (exported != null)
{
var authorization = await altSession.Client.Auth_ImportAuthorization(exported.id, exported.bytes);
if (authorization is not Auth_Authorization { user: User user })
throw new ApplicationException("Failed to get Authorization: " + authorization.GetType().Name);
altSession.UserId = user.id;
}
}
finally
{
_semaphore.Release();
}
}
return altSession.Client;
}
private Session.DCSession GetOrCreateDCSession(int dcId, DcOption.Flags flags)
{
if (_session.DCSessions.TryGetValue(dcId, out var dcSession))
if (dcSession.Client != null || dcSession.DataCenter.flags == flags)
return dcSession; // if we have already a session with this DC and we are connected or it is a perfect match, use it
// try to find the most appropriate DcOption for this DC
var dcOptions = _session.DcOptions.Where(dc => dc.id == dcId).OrderBy(dc => dc.flags ^ flags);
var dcOption = dcOptions.FirstOrDefault() ?? throw new ApplicationException($"Could not find adequate dc_option for DC {dcId}");
dcSession ??= new Session.DCSession { Id = Helpers.RandomLong() }; // create new session only if not already existing
dcSession.DataCenter = dcOption;
return _session.DCSessions[dcId] = dcSession;
}
internal DateTime MsgIdToStamp(long serverMsgId)
=> new((serverMsgId >> 32) * 10000000 - _dcSession.ServerTicksOffset + 621355968000000000L, DateTimeKind.Utc);
internal (long msgId, int seqno) NewMsgId(bool isContent)
{
int seqno;
long msgId = DateTime.UtcNow.Ticks + _dcSession.ServerTicksOffset - 621355968000000000L;
msgId = msgId * 428 + (msgId >> 24) * 25110956; // approximately unixtime*2^32 and divisible by 4
lock (_session)
{
if (msgId <= _dcSession.LastSentMsgId) msgId = _dcSession.LastSentMsgId += 4; else _dcSession.LastSentMsgId = msgId;
seqno = isContent ? _dcSession.Seqno++ * 2 + 1 : _dcSession.Seqno * 2;
_session.Save();
}
return (msgId, seqno);
}
private async Task KeepAlive(CancellationToken ct)
{
int ping_id = _random.Next();
while (!ct.IsCancellationRequested)
{
await Task.Delay(60000, ct);
if (_saltChangeCounter > 0) --_saltChangeCounter;
#if DEBUG
await this.PingDelayDisconnect(ping_id++, 300);
#else
await this.PingDelayDisconnect(ping_id++, 75);
#endif
}
}
private async Task Reactor(NetworkStream stream, CancellationTokenSource cts)
{
const int MinBufferSize = 1024;
var data = new byte[MinBufferSize];
while (!cts.IsCancellationRequested)
{
IObject obj = null;
try
{
if (await FullReadAsync(stream, data, 4, cts.Token) != 4)
throw new ApplicationException("Could not read payload length : Connection shut down");
int payloadLen = BinaryPrimitives.ReadInt32LittleEndian(data);
if (payloadLen > data.Length)
data = new byte[payloadLen];
else if (Math.Max(payloadLen, MinBufferSize) < data.Length / 4)
data = new byte[Math.Max(payloadLen, MinBufferSize)];
if (await FullReadAsync(stream, data, payloadLen, cts.Token) != payloadLen)
throw new ApplicationException("Could not read frame data : Connection shut down");
obj = ReadFrame(data, payloadLen);
}
catch (Exception ex) // an exception in RecvAsync is always fatal
{
if (cts.IsCancellationRequested) return;
Helpers.Log(5, $"An exception occured in the reactor: {ex}");
var oldSemaphore = _sendSemaphore;
await oldSemaphore.WaitAsync(cts.Token); // prevent any sending while we reconnect
var reactorError = new ReactorError { Exception = ex };
try
{
_reactorReconnects = (_reactorReconnects + 1) % MaxAutoReconnects;
if (_reactorReconnects != 0)
{
lock (_msgsToAck) _msgsToAck.Clear();
Reset(false, false);
await Task.Delay(5000);
await ConnectAsync(); // start a new reactor after 5 secs
lock (_pendingRequests) // retry all pending requests
{
foreach (var (_, tcs) in _pendingRequests.Values)
tcs.SetResult(reactorError);
_pendingRequests.Clear();
_bareRequest = 0;
}
// TODO: implement an Updates gaps handling system? https://core.telegram.org/api/updates
var udpatesState = await this.Updates_GetState(); // this call reenables incoming Updates
OnUpdate(udpatesState);
}
else
throw;
}
catch
{
lock (_pendingRequests) // abort all pending requests
{
foreach (var (_, tcs) in _pendingRequests.Values)
tcs.SetException(ex);
_pendingRequests.Clear();
_bareRequest = 0;
}
OnUpdate(reactorError);
}
finally
{
oldSemaphore.Release();
}
cts.Cancel(); // always stop the reactor
}
if (obj != null)
await HandleMessageAsync(obj);
}
}
internal IObject ReadFrame(byte[] data, int dataLen)
{
if (dataLen == 4 && data[3] == 0xFF)
{
int error_code = -BinaryPrimitives.ReadInt32LittleEndian(data);
throw new RpcException(error_code, TransportError(error_code));
}
if (dataLen < 24) // authKeyId+msgId+length+ctorNb | authKeyId+msgKey
throw new ApplicationException($"Packet payload too small: {dataLen}");
long authKeyId = BinaryPrimitives.ReadInt64LittleEndian(data);
if (authKeyId != _dcSession.AuthKeyID)
throw new ApplicationException($"Received a packet encrypted with unexpected key {authKeyId:X}");
if (authKeyId == 0) // Unencrypted message
{
using var reader = new TL.BinaryReader(new MemoryStream(data, 8, dataLen - 8), this);
long msgId = _lastRecvMsgId = reader.ReadInt64();
if ((msgId & 1) == 0) throw new ApplicationException($"Invalid server msgId {msgId}");
int length = reader.ReadInt32();
if (length != dataLen - 20) throw new ApplicationException($"Unexpected unencrypted length {length} != {dataLen - 20}");
var obj = reader.ReadTLObject();
Helpers.Log(1, $"{_dcSession.DcID}>Receiving {obj.GetType().Name,-40} {MsgIdToStamp(msgId):u} clear{((msgId & 2) == 0 ? "" : " NAR")}");
return obj;
}
else
{
#if MTPROTO1
byte[] decrypted_data = EncryptDecryptMessage(data.AsSpan(24, dataLen - 24), false, _dcSession.AuthKey, data, 8, _sha1Recv);
#else
byte[] decrypted_data = EncryptDecryptMessage(data.AsSpan(24, dataLen - 24), false, _dcSession.AuthKey, data, 8, _sha256Recv);
#endif
if (decrypted_data.Length < 36) // header below+ctorNb
throw new ApplicationException($"Decrypted packet too small: {decrypted_data.Length}");
using var reader = new TL.BinaryReader(new MemoryStream(decrypted_data), this);
var serverSalt = reader.ReadInt64(); // int64 salt
var sessionId = reader.ReadInt64(); // int64 session_id
var msgId = _lastRecvMsgId = reader.ReadInt64();// int64 message_id
var seqno = reader.ReadInt32(); // int32 msg_seqno
var length = reader.ReadInt32(); // int32 message_data_length
var msgStamp = MsgIdToStamp(msgId);
if (serverSalt != _dcSession.Salt) // salt change happens every 30 min
{
Helpers.Log(2, $"{_dcSession.DcID}>Server salt has changed: {_dcSession.Salt:X} -> {serverSalt:X}");
_dcSession.Salt = serverSalt;
_saltChangeCounter += 20; // counter is decreased by KeepAlive every minute (we have margin of 10)
if (_saltChangeCounter >= 30)
throw new ApplicationException($"Server salt changed too often! Security issue?");
}
if (sessionId != _dcSession.Id) throw new ApplicationException($"Unexpected session ID {sessionId} != {_dcSession.Id}");
if ((msgId & 1) == 0) throw new ApplicationException($"Invalid server msgId {msgId}");
if ((seqno & 1) != 0) lock (_msgsToAck) _msgsToAck.Add(msgId);
if ((msgStamp - DateTime.UtcNow).Ticks / TimeSpan.TicksPerSecond is > 30 or < -300)
return null;
#if MTPROTO1
if (decrypted_data.Length - 32 - length is < 0 or > 15) throw new ApplicationException($"Unexpected decrypted message_data_length {length} / {decrypted_data.Length - 32}");
if (!data.AsSpan(8, 16).SequenceEqual(_sha1Recv.ComputeHash(decrypted_data, 0, 32 + length).AsSpan(4)))
throw new ApplicationException($"Mismatch between MsgKey & decrypted SHA1");
#else
if (decrypted_data.Length - 32 - length is < 12 or > 1024) throw new ApplicationException($"Unexpected decrypted message_data_length {length} / {decrypted_data.Length - 32}");
_sha256Recv.TransformBlock(_dcSession.AuthKey, 96, 32, null, 0);
_sha256Recv.TransformFinalBlock(decrypted_data, 0, decrypted_data.Length);
if (!data.AsSpan(8, 16).SequenceEqual(_sha256Recv.Hash.AsSpan(8, 16)))
throw new ApplicationException($"Mismatch between MsgKey & decrypted SHA1");
_sha256Recv.Initialize();
#endif
var ctorNb = reader.ReadUInt32();
if (ctorNb == Layer.MsgContainerCtor)
{
Helpers.Log(1, $"{_dcSession.DcID}>Receiving {"MsgContainer",-40} {msgStamp:u} (svc)");
return ReadMsgContainer(reader);
}
else if (ctorNb == Layer.RpcResultCtor)
{
Helpers.Log(1, $"{_dcSession.DcID}>Receiving {"RpcResult",-40} {msgStamp:u}");
return ReadRpcResult(reader);
}
else
{
var obj = reader.ReadTLObject(ctorNb);
Helpers.Log(1, $"{_dcSession.DcID}>Receiving {obj.GetType().Name,-40} {msgStamp:u} {((seqno & 1) != 0 ? "" : "(svc)")} {((msgId & 2) == 0 ? "" : "NAR")}");
return obj;
}
}
static string TransportError(int error_code) => error_code switch
{
404 => "Auth key not found",
429 => "Transport flood",
_ => Enum.GetName(typeof(HttpStatusCode), error_code) ?? "Transport error"
};
}
private static async Task<int> FullReadAsync(Stream stream, byte[] buffer, int length, CancellationToken ct = default)
{
for (int offset = 0; offset < length;)
{
var read = await stream.ReadAsync(buffer, offset, length - offset, ct);
if (read == 0) return offset;
offset += read;
}
return length;
}
private async Task<long> SendAsync(IObject msg, bool isContent)
{
if (_dcSession.AuthKeyID != 0 && isContent && CheckMsgsToAck() is MsgsAck msgsAck)
{
var ackMsg = NewMsgId(false);
var mainMsg = NewMsgId(true);
await SendAsync(MakeContainer((msgsAck, ackMsg), (msg, mainMsg)), false);
return mainMsg.msgId;
}
(long msgId, int seqno) = NewMsgId(isContent && _dcSession.AuthKeyID != 0);
await _sendSemaphore.WaitAsync();
try
{
using var memStream = new MemoryStream(1024);
using var writer = new BinaryWriter(memStream, Encoding.UTF8);
writer.Write(0); // int32 payload_len (to be patched with payload length)
if (_dcSession.AuthKeyID == 0) // send unencrypted message
{
writer.Write(0L); // int64 auth_key_id = 0 (Unencrypted)
writer.Write(msgId); // int64 message_id
writer.Write(0); // int32 message_data_length (to be patched)
writer.WriteTLObject(msg); // bytes message_data
Helpers.Log(1, $"{_dcSession.DcID}>Sending {msg.GetType().Name.TrimEnd('_')}...");
BinaryPrimitives.WriteInt32LittleEndian(memStream.GetBuffer().AsSpan(20), (int)memStream.Length - 24); // patch message_data_length
}
else
{
using var clearStream = new MemoryStream(1024);
using var clearWriter = new BinaryWriter(clearStream, Encoding.UTF8);
#if MTPROTO1
const int prepend = 0;
#else
const int prepend = 32;
clearWriter.Write(_dcSession.AuthKey, 88, prepend);
#endif
clearWriter.Write(_dcSession.Salt); // int64 salt
clearWriter.Write(_dcSession.Id); // int64 session_id
clearWriter.Write(msgId); // int64 message_id
clearWriter.Write(seqno); // int32 msg_seqno
clearWriter.Write(0); // int32 message_data_length (to be patched)
clearWriter.WriteTLObject(msg); // bytes message_data
if ((seqno & 1) != 0)
Helpers.Log(1, $"{_dcSession.DcID}>Sending {msg.GetType().Name.TrimEnd('_'),-40} #{(short)msgId.GetHashCode():X4}");
else
Helpers.Log(1, $"{_dcSession.DcID}>Sending {msg.GetType().Name.TrimEnd('_'),-40} {MsgIdToStamp(msgId):u} (svc)");
int clearLength = (int)clearStream.Length - prepend; // length before padding (= 32 + message_data_length)
int padding = (0x7FFFFFF0 - clearLength) % 16;
#if !MTPROTO1
padding += _random.Next(1, 64) * 16; // MTProto 2.0 padding must be between 12..1024 with total length divisible by 16
#endif
clearStream.SetLength(prepend + clearLength + padding);
byte[] clearBuffer = clearStream.GetBuffer();
BinaryPrimitives.WriteInt32LittleEndian(clearBuffer.AsSpan(prepend + 28), clearLength - 32); // patch message_data_length
RNG.GetBytes(clearBuffer, prepend + clearLength, padding);
#if MTPROTO1
var msgKeyLarge = _sha1.ComputeHash(clearBuffer, 0, clearLength); // padding excluded from computation!
const int msgKeyOffset = 4; // msg_key = low 128-bits of SHA1(plaintext)
byte[] encrypted_data = EncryptDecryptMessage(clearBuffer.AsSpan(prepend, clearLength + padding), true, _dcSession.AuthKey, msgKeyLarge, msgKeyOffset, _sha1);
#else
var msgKeyLarge = _sha256.ComputeHash(clearBuffer, 0, prepend + clearLength + padding);
const int msgKeyOffset = 8; // msg_key = middle 128-bits of SHA256(authkey_part+plaintext+padding)
byte[] encrypted_data = EncryptDecryptMessage(clearBuffer.AsSpan(prepend, clearLength + padding), true, _dcSession.AuthKey, msgKeyLarge, msgKeyOffset, _sha256);
#endif
writer.Write(_dcSession.AuthKeyID); // int64 auth_key_id
writer.Write(msgKeyLarge, msgKeyOffset, 16); // int128 msg_key
writer.Write(encrypted_data); // bytes encrypted_data
}
var buffer = memStream.GetBuffer();
int frameLength = (int)memStream.Length;
BinaryPrimitives.WriteInt32LittleEndian(buffer, frameLength - 4); // patch payload_len with correct value
//TODO: support Transport obfuscation?
await _networkStream.WriteAsync(memStream.GetBuffer(), 0, frameLength);
_lastSentMsg = msg;
}
finally
{
_sendSemaphore.Release();
}
return msgId;
}
internal MsgContainer ReadMsgContainer(TL.BinaryReader reader)
{
int count = reader.ReadInt32();
var array = new _Message[count];
for (int i = 0; i < count; i++)
{
var msg = array[i] = new _Message
{
msg_id = reader.ReadInt64(),
seqno = reader.ReadInt32(),
bytes = reader.ReadInt32(),
};
if ((msg.seqno & 1) != 0) lock(_msgsToAck) _msgsToAck.Add(msg.msg_id);
var pos = reader.BaseStream.Position;
try
{
var ctorNb = reader.ReadUInt32();
if (ctorNb == Layer.RpcResultCtor)
{
Helpers.Log(1, $" → {"RpcResult",-38} {MsgIdToStamp(msg.msg_id):u}");
msg.body = ReadRpcResult(reader);
}
else
{
var obj = msg.body = reader.ReadTLObject(ctorNb);
Helpers.Log(1, $" → {obj.GetType().Name,-38} {MsgIdToStamp(msg.msg_id):u} {((msg.seqno & 1) != 0 ? "" : "(svc)")} {((msg.msg_id & 2) == 0 ? "" : "NAR")}");
}
}
catch (Exception ex)
{
Helpers.Log(4, "While deserializing vector<%Message>: " + ex.ToString());
}
reader.BaseStream.Position = pos + array[i].bytes;
}
return new MsgContainer { messages = array };
}
private RpcResult ReadRpcResult(TL.BinaryReader reader)
{
long msgId = reader.ReadInt64();
var (type, tcs) = PullPendingRequest(msgId);
object result;
if (tcs != null)
{
if (!type.IsArray)
result = reader.ReadTLValue(type);
else if (reader.ReadUInt32() == Layer.RpcErrorCtor)
result = reader.ReadTLObject(Layer.RpcErrorCtor);
else
{
reader.BaseStream.Position -= 4;
result = reader.ReadTLValue(type);
}
if (type.IsEnum) result = Enum.ToObject(type, result);
Log(1, "");
tcs.SetResult(result);
}
else
{
result = reader.ReadTLObject();
if (MsgIdToStamp(msgId) >= _session.SessionStart)
Log(4, "for unknown msgId ");
else
Log(1, "for past msgId ");
}
return new RpcResult { req_msg_id = msgId, result = result };
void Log(int level, string msgIdprefix)
{
if (result is RpcError rpcError)
Helpers.Log(4, $" → RpcError {rpcError.error_code,3} {rpcError.error_message,-24} {msgIdprefix}#{(short)msgId.GetHashCode():X4}");
else
Helpers.Log(level, $" → {result?.GetType().Name,-37} {msgIdprefix}#{(short)msgId.GetHashCode():X4}");
}
}
private (Type type, TaskCompletionSource<object> tcs) PullPendingRequest(long msgId)
{
(Type type, TaskCompletionSource<object> tcs) request;
lock (_pendingRequests)
if (_pendingRequests.TryGetValue(msgId, out request))
_pendingRequests.Remove(msgId);
return request;
}
internal async Task<X> CallBareAsync<X>(IMethod<X> request)
{
if (_bareRequest != 0) throw new ApplicationException("A bare request is already undergoing");
var msgId = await SendAsync(request, false);
var tcs = new TaskCompletionSource<object>(TaskCreationOptions.RunContinuationsAsynchronously);
lock (_pendingRequests)
_pendingRequests[msgId] = (typeof(X), tcs);
_bareRequest = msgId;
return (X)await tcs.Task;
}
/// <summary>Call the given TL method <i>(You shouldn't need to call this, usually)</i></summary>
/// <typeparam name="X">Expected type of the returned object</typeparam>
/// <param name="request">TL method object</param>
/// <returns>Wait for the reply and return the resulting object, or throws an RpcException if an error was replied</returns>
public async Task<X> CallAsync<X>(IMethod<X> request)
{
retry:
var msgId = await SendAsync(request, true);
var tcs = new TaskCompletionSource<object>(TaskCreationOptions.RunContinuationsAsynchronously);
lock (_pendingRequests)
_pendingRequests[msgId] = (typeof(X), tcs);
var result = await tcs.Task;
switch (result)
{
case X resultX: return resultX;
case RpcError rpcError:
int number;
if (rpcError.error_code == 303 && ((number = rpcError.error_message.IndexOf("_MIGRATE_")) > 0))
{
if (!rpcError.error_message.StartsWith("FILE_"))
{
number = int.Parse(rpcError.error_message[(number + 9)..]);
// this is a hack to migrate _dcSession in-place (staying in same Client):
Session.DCSession dcSession;
lock (_session)
dcSession = GetOrCreateDCSession(number, _dcSession.DataCenter.flags);
Reset(false, false);
_session.MainDC = number;
_dcSession.Client = null;
_dcSession = dcSession;
_dcSession.Client = this;
await ConnectAsync();
goto retry;
}
}
else if (rpcError.error_code == 420 && ((number = rpcError.error_message.IndexOf("_WAIT_")) > 0))
{
number = int.Parse(rpcError.error_message[(number + 6)..]);
if (number <= 60)
{
await Task.Delay(number * 1000);
goto retry;
}
}
else if (rpcError.error_code == 500 && rpcError.error_message == "AUTH_RESTART")
{
_session.UserId = 0; // force a full login authorization flow, next time
_session.Save();
}
throw new RpcException(rpcError.error_code, rpcError.error_message);
case ReactorError:
goto retry;
default:
throw new ApplicationException($"{request.GetType().Name} call got a result of type {result.GetType().Name} instead of {typeof(X).Name}");
}
}
private MsgsAck CheckMsgsToAck()
{
lock (_msgsToAck)
{
if (_msgsToAck.Count == 0) return null;
var msgsAck = new MsgsAck { msg_ids = _msgsToAck.ToArray() };
_msgsToAck.Clear();
return msgsAck;
}
}
private static MsgContainer MakeContainer(params (IObject obj, (long msgId, int seqno))[] msgs)
=> new()
{
messages = msgs.Select(msg => new _Message
{
msg_id = msg.Item2.msgId,
seqno = msg.Item2.seqno,
body = msg.obj
}).ToArray()
};
private async Task HandleMessageAsync(IObject obj)
{
switch (obj)
{
case MsgContainer container:
foreach (var msg in container.messages)
if (msg.body != null)
await HandleMessageAsync(msg.body);
break;
case MsgCopy msgCopy:
if (msgCopy?.orig_message?.body != null)
await HandleMessageAsync(msgCopy.orig_message.body);
break;
case BadServerSalt badServerSalt:
_dcSession.Salt = badServerSalt.new_server_salt;
if (badServerSalt.bad_msg_id == _dcSession.LastSentMsgId)
{
var newMsgId = await SendAsync(_lastSentMsg, true);
lock (_pendingRequests)
if (_pendingRequests.TryGetValue(badServerSalt.bad_msg_id, out var t))
{
_pendingRequests.Remove(badServerSalt.bad_msg_id);
_pendingRequests[newMsgId] = t;
}
}
break;
case MTProto.Ping_ ping:
_ = SendAsync(new Pong { msg_id = _lastRecvMsgId, ping_id = ping.ping_id }, false);
break;
case Pong pong:
SetResult(pong.msg_id, pong);
break;
case FutureSalts futureSalts:
SetResult(futureSalts.req_msg_id, futureSalts);
break;
case RpcResult rpcResult:
break; // SetResult was already done in ReadRpcResult
case MsgsAck msgsAck:
break; // we don't do anything with these, for now
case BadMsgNotification badMsgNotification:
{
Helpers.Log(4, $"BadMsgNotification {badMsgNotification.error_code} for msg #{(short)badMsgNotification.bad_msg_id.GetHashCode():X4}");
var tcs = PullPendingRequest(badMsgNotification.bad_msg_id).tcs;
if (tcs != null)
{
if (_bareRequest == badMsgNotification.bad_msg_id) _bareRequest = 0;
tcs.SetException(new ApplicationException($"BadMsgNotification {badMsgNotification.error_code}"));
}
else
OnUpdate(obj);
}
break;
default:
if (_bareRequest != 0)
{
var (type, tcs) = PullPendingRequest(_bareRequest);
if (type?.IsAssignableFrom(obj.GetType()) == true)
{
_bareRequest = 0;
tcs.SetResult(obj);
break;
}
}
OnUpdate(obj);
break;
}
void SetResult(long msgId, object result)
{
var tcs = PullPendingRequest(msgId).tcs;
if (tcs != null)
tcs.SetResult(result);
else
OnUpdate(obj);
}
}
private void OnUpdate(IObject obj)
{
try
{
Update?.Invoke(obj);
}
catch (Exception ex)
{
Helpers.Log(4, $"Update callback on {obj.GetType().Name} raised {ex}");
}
}
/// <summary>Login as a bot (if not already logged-in).</summary>
/// <remarks>Config callback is queried for: <b>bot_token</b>
/// <br/>Bots can only call API methods marked with [bots: ✓] in their documentation. </remarks>
/// <returns>Detail about the logged-in bot</returns>
public async Task<User> LoginBotIfNeeded()
{
await ConnectAsync();
string botToken = Config("bot_token");
if (_session.UserId != 0) // a user is already logged-in
{
try
{
var users = await this.Users_GetUsers(new[] { InputUser.Self }); // this calls also reenable incoming Updates
var self = users[0] as User;
if (self.id == long.Parse(botToken.Split(':')[0]))
{
_session.UserId = _dcSession.UserId = self.id;
return self;
}
Helpers.Log(3, $"Current logged user {self.id} mismatched bot_token. Logging out and in...");
}
catch (Exception ex)
{
Helpers.Log(4, $"Error while verifying current bot! ({ex.Message}) Proceeding to login...");
}
await this.Auth_LogOut();
_session.UserId = _dcSession.UserId = 0;
}
var authorization = await this.Auth_ImportBotAuthorization(0, _apiId, _apiHash, botToken);
if (authorization is not Auth_Authorization { user: User user })
throw new ApplicationException("Failed to get Authorization: " + authorization.GetType().Name);
_session.UserId = _dcSession.UserId = user.id;
_session.Save();
return user;
}
/// <summary>Login as a user (if not already logged-in).
/// <br/><i>(this method calls ConnectAsync if necessary)</i></summary>
/// <remarks>Config callback is queried for: <b>phone_number</b>, <b>verification_code</b> <br/>and eventually <b>first_name</b>, <b>last_name</b> (signup required), <b>password</b> (2FA auth), <b>user_id</b> (alt validation)</remarks>
/// <param name="settings">(optional) Preference for verification_code sending</param>
/// <returns>Detail about the logged-in user
/// <br/>Most methods of this class are async (Task), so please use <see langword="await"/> to get the result</returns>
public async Task<User> LoginUserIfNeeded(CodeSettings settings = null)
{
await ConnectAsync();
string phone_number = null;
if (_session.UserId != 0) // a user is already logged-in
{
try
{
var users = await this.Users_GetUsers(new[] { InputUser.Self }); // this calls also reenable incoming Updates
var self = users[0] as User;
// check user_id or phone_number match currently logged-in user
if ((int.TryParse(_config("user_id"), out int id) && (id == -1 || self.id == id)) ||
self.phone == string.Concat((phone_number = Config("phone_number")).Where(char.IsDigit)))
{
_session.UserId = _dcSession.UserId = self.id;
return self;
}
Helpers.Log(3, $"Current logged user {self.id} mismatched user_id or phone_number. Logging out and in...");
}
catch (Exception ex)
{
Helpers.Log(4, $"Error while verifying current user! ({ex.Message}) Proceeding to login...");
}
await this.Auth_LogOut();
_session.UserId = _dcSession.UserId = 0;
}
phone_number ??= Config("phone_number");
Auth_SentCode sentCode;
try
{
sentCode = await this.Auth_SendCode(phone_number, _apiId, _apiHash, settings ??= new());
}
catch (RpcException ex) when (ex.Code == 500 && ex.Message == "AUTH_RESTART")
{
sentCode = await this.Auth_SendCode(phone_number, _apiId, _apiHash, settings ??= new());
}
Helpers.Log(3, $"A verification code has been sent via {sentCode.type.GetType().Name[17..]}");
Auth_AuthorizationBase authorization;
for (int retry = 1; ; retry++)
try
{
var verification_code = Config("verification_code");
authorization = await this.Auth_SignIn(phone_number, sentCode.phone_code_hash, verification_code);
break;
}
catch (RpcException e) when (e.Code == 401 && e.Message == "SESSION_PASSWORD_NEEDED")
{
var accountPassword = await this.Account_GetPassword();
Helpers.Log(3, $"This account has enabled 2FA. A password is needed. {accountPassword.hint}");
var checkPasswordSRP = Check2FA(accountPassword, Config("password"));
authorization = await this.Auth_CheckPassword(checkPasswordSRP);
break;
}
catch (RpcException e) when (e.Code == 400 && e.Message == "PHONE_CODE_INVALID" && retry != 3)
{
continue;
}
if (authorization is Auth_AuthorizationSignUpRequired signUpRequired)
{
var waitUntil = DateTime.UtcNow.AddSeconds(3);
if (signUpRequired.terms_of_service != null)
OnUpdate(signUpRequired.terms_of_service); // give caller the possibility to read and accept TOS
var first_name = Config("first_name");
var last_name = Config("last_name");
var wait = waitUntil - DateTime.UtcNow;
if (wait > TimeSpan.Zero) await Task.Delay(wait); // we get a FLOOD_WAIT_3 if we SignUp too fast
authorization = await this.Auth_SignUp(phone_number, sentCode.phone_code_hash, first_name, last_name);
}
if (authorization is not Auth_Authorization { user: User user })
throw new ApplicationException("Failed to get Authorization: " + authorization.GetType().Name);
_session.UserId = _dcSession.UserId = user.id;
_session.Save();
return user;
}
#region TL-Helpers
/// <summary>Helper function to upload a file to Telegram</summary>
/// <param name="pathname">Path to the file to upload</param>
/// <returns>an <see cref="InputFile"/> or <see cref="InputFileBig"/> than can be used in various requests</returns>
public Task<InputFileBase> UploadFileAsync(string pathname)
=> UploadFileAsync(File.OpenRead(pathname), Path.GetFileName(pathname));
/// <summary>Helper function to upload a file to Telegram</summary>
/// <param name="stream">Content of the file to upload</param>
/// <param name="filename">Name of the file</param>
/// <returns>an <see cref="InputFile"/> or <see cref="InputFileBig"/> than can be used in various requests</returns>
public async Task<InputFileBase> UploadFileAsync(Stream stream, string filename)
{
using var md5 = MD5.Create();
using (stream)
{
long length = stream.Length;
var isBig = length >= 10 * 1024 * 1024;
int file_total_parts = (int)((length - 1) / FilePartSize) + 1;
long file_id = Helpers.RandomLong();
int file_part = 0, read;
var tasks = new Dictionary<int, Task>();
bool abort = false;
for (long bytesLeft = length; !abort && bytesLeft != 0; file_part++)
{
var bytes = new byte[Math.Min(FilePartSize, bytesLeft)];
read = await FullReadAsync(stream, bytes, bytes.Length);
await _parallelTransfers.WaitAsync();
var task = SavePart(file_part, bytes);
lock (tasks) tasks[file_part] = task;
if (!isBig)
md5.TransformBlock(bytes, 0, read, null, 0);
bytesLeft -= read;
if (read < FilePartSize && bytesLeft != 0) throw new ApplicationException($"Failed to fully read stream ({read},{bytesLeft})");
async Task SavePart(int file_part, byte[] bytes)
{
try
{
if (isBig)
await this.Upload_SaveBigFilePart(file_id, file_part, file_total_parts, bytes);
else
await this.Upload_SaveFilePart(file_id, file_part, bytes);
lock (tasks) tasks.Remove(file_part);
}
catch (Exception)
{
abort = true;
throw;
}
finally
{
_parallelTransfers.Release();
}
}
}
Task[] remainingTasks;
lock (tasks) remainingTasks = tasks.Values.ToArray();
await Task.WhenAll(remainingTasks); // wait completion and eventually propagate any task exception
if (!isBig) md5.TransformFinalBlock(Array.Empty<byte>(), 0, 0);
return isBig ? new InputFileBig { id = file_id, parts = file_total_parts, name = filename }
: new InputFile { id = file_id, parts = file_total_parts, name = filename, md5_checksum = md5.Hash };
}
}
/// <summary>Helper function to send a text or media message more easily</summary>
/// <param name="peer">Destination of message (chat group, channel, user chat, etc..) </param>
/// <param name="caption">Caption for the media <i>(in plain text)</i> or <see langword="null"/></param>
/// <param name="mediaFile">Media file already uploaded to TG <i>(see <see cref="UploadFileAsync">UploadFileAsync</see>)</i></param>
/// <param name="mimeType"><see langword="null"/> for automatic detection, <c>"photo"</c> for an inline photo, or a MIME type to send as a document</param>
/// <param name="reply_to_msg_id">Your message is a reply to an existing message with this ID, in the same chat</param>
/// <param name="entities">Text formatting entities for the caption. You can use <see cref="Markdown.MarkdownToEntities">MarkdownToEntities</see> to create these</param>
/// <param name="schedule_date">UTC timestamp when the message should be sent</param>
/// <returns>The transmitted message confirmed by Telegram</returns>
public Task<Message> SendMediaAsync(InputPeer peer, string caption, InputFileBase mediaFile, string mimeType = null, int reply_to_msg_id = 0, MessageEntity[] entities = null, DateTime schedule_date = default)
{
var filename = mediaFile is InputFile iFile ? iFile.name : (mediaFile as InputFileBig)?.name;
mimeType ??= Path.GetExtension(filename).ToLowerInvariant() switch
{
".jpg" or ".jpeg" or ".png" or ".bmp" => "photo",
".gif" => "image/gif",
".webp" => "image/webp",
".mp4" => "video/mp4",
".mp3" => "audio/mpeg",
".wav" => "audio/x-wav",
_ => "", // send as generic document with undefined MIME type
};
if (mimeType == "photo")
return SendMessageAsync(peer, caption, new InputMediaUploadedPhoto { file = mediaFile },
reply_to_msg_id, entities, schedule_date);
var attributes = filename == null ? Array.Empty<DocumentAttribute>() : new[] { new DocumentAttributeFilename { file_name = filename } };
return SendMessageAsync(peer, caption, new InputMediaUploadedDocument
{
file = mediaFile, mime_type = mimeType, attributes = attributes
}, reply_to_msg_id, entities, schedule_date);
}
/// <summary>Helper function to send a text or media message easily</summary>
/// <param name="peer">Destination of message (chat group, channel, user chat, etc..) </param>
/// <param name="text">The plain text of the message (or media caption)</param>
/// <param name="media">An instance of <see cref="InputMedia">InputMedia</see>-derived class, or <see langword="null"/> if there is no associated media</param>
/// <param name="reply_to_msg_id">Your message is a reply to an existing message with this ID, in the same chat</param>
/// <param name="entities">Text formatting entities. You can use <see cref="Markdown.MarkdownToEntities">MarkdownToEntities</see> to create these</param>
/// <param name="schedule_date">UTC timestamp when the message should be sent</param>
/// <param name="disable_preview">Should website/media preview be shown or not, for URLs in your message</param>
/// <returns>The transmitted message as confirmed by Telegram</returns>
public async Task<Message> SendMessageAsync(InputPeer peer, string text, InputMedia media = null, int reply_to_msg_id = 0, MessageEntity[] entities = null, DateTime schedule_date = default, bool disable_preview = false)
{
UpdatesBase updates;
long random_id = Helpers.RandomLong();
if (media == null)
updates = await this.Messages_SendMessage(peer, text, random_id, no_webpage: disable_preview, entities: entities,
reply_to_msg_id: reply_to_msg_id == 0 ? null : reply_to_msg_id, schedule_date: schedule_date == default ? null : schedule_date);
else
updates = await this.Messages_SendMedia(peer, media, text, random_id, entities: entities,
reply_to_msg_id: reply_to_msg_id == 0 ? null : reply_to_msg_id, schedule_date: schedule_date == default ? null : schedule_date);
OnUpdate(updates);
int msgId = -1;
foreach (var update in updates.UpdateList)
{
switch (update)
{
case UpdateMessageID updMsgId when updMsgId.random_id == random_id: msgId = updMsgId.id; break;
case UpdateNewMessage { message: Message message } when message.id == msgId: return message;
case UpdateNewScheduledMessage { message: Message schedMsg } when schedMsg.id == msgId: return schedMsg;
}
}
if (updates is UpdateShortSentMessage sent)
{
return new Message
{
flags = (Message.Flags)sent.flags | (reply_to_msg_id == 0 ? 0 : Message.Flags.has_reply_to) | (peer is InputPeerSelf ? 0 : Message.Flags.has_from_id),
id = sent.id, date = sent.date, message = text, entities = sent.entities, media = sent.media, ttl_period = sent.ttl_period,
reply_to = reply_to_msg_id == 0 ? null : new MessageReplyHeader { reply_to_msg_id = reply_to_msg_id },
from_id = peer is InputPeerSelf ? null : new PeerUser { user_id = _session.UserId },
peer_id = InputToPeer(peer)
};
}
return null;
}
private Peer InputToPeer(InputPeer peer) => peer switch
{
InputPeerSelf => new PeerUser { user_id = _session.UserId },
InputPeerUser ipu => new PeerUser { user_id = ipu.user_id },
InputPeerChat ipc => new PeerChat { chat_id = ipc.chat_id },
InputPeerChannel ipch => new PeerChannel { channel_id = ipch.channel_id },
InputPeerUserFromMessage ipufm => new PeerUser { user_id = ipufm.user_id },
InputPeerChannelFromMessage ipcfm => new PeerChannel { channel_id = ipcfm.channel_id },
_ => null,
};
/// <summary>Download a photo from Telegram into the outputStream</summary>
/// <param name="photo">The photo to download</param>
/// <param name="outputStream">Stream to write the file content to. This method does not close/dispose the stream</param>
/// <param name="photoSize">A specific size/version of the photo, or <see langword="null"/> to download the largest version of the photo</param>
/// <returns>The file type of the photo</returns>
public async Task<Storage_FileType> DownloadFileAsync(Photo photo, Stream outputStream, PhotoSizeBase photoSize = null)
{
photoSize ??= photo.LargestPhotoSize;
var fileLocation = photo.ToFileLocation(photoSize);
return await DownloadFileAsync(fileLocation, outputStream, photo.dc_id, photoSize.FileSize);
}
/// <summary>Download a document from Telegram into the outputStream</summary>
/// <param name="document">The document to download</param>
/// <param name="outputStream">Stream to write the file content to. This method does not close/dispose the stream</param>
/// <param name="thumbSize">A specific size/version of the document thumbnail to download, or <see langword="null"/> to download the document itself</param>
/// <returns>MIME type of the document/thumbnail</returns>
public async Task<string> DownloadFileAsync(Document document, Stream outputStream, PhotoSizeBase thumbSize = null)
{
var fileLocation = document.ToFileLocation(thumbSize);
var fileType = await DownloadFileAsync(fileLocation, outputStream, document.dc_id, thumbSize?.FileSize ?? document.size);
return thumbSize == null ? document.mime_type : "image/" + fileType;
}
/// <summary>Download a file from Telegram into the outputStream</summary>
/// <param name="fileLocation">Telegram file identifier, typically obtained with a .ToFileLocation() call</param>
/// <param name="outputStream">Stream to write file content to. This method does not close/dispose the stream</param>
/// <param name="fileDC">(optional) DC on which the file is stored</param>
/// <param name="fileSize">(optional) Expected file size</param>
/// <returns>The file type</returns>
public async Task<Storage_FileType> DownloadFileAsync(InputFileLocationBase fileLocation, Stream outputStream, int fileDC = 0, int fileSize = 0)
{
Storage_FileType fileType = Storage_FileType.unknown;
var client = fileDC == 0 ? this : await GetClientForDC(fileDC, true);
using var writeSem = new SemaphoreSlim(1);
long streamStartPos = outputStream.Position;
int fileOffset = 0, maxOffsetSeen = 0;
var tasks = new Dictionary<int, Task>();
bool abort = false;
while (!abort)
{
await _parallelTransfers.WaitAsync();
var task = LoadPart(fileOffset);
lock (tasks) tasks[fileOffset] = task;
if (fileDC == 0) { await task; fileDC = client._dcSession.DcID; }
fileOffset += FilePartSize;
if (fileSize != 0 && fileOffset >= fileSize)
{
if (await task != ((fileSize - 1) % FilePartSize) + 1)
throw new ApplicationException("Downloaded file size does not match expected file size");
break;
}
async Task<int> LoadPart(int offset)
{
Upload_FileBase fileBase;
try
{
fileBase = await client.Upload_GetFile(fileLocation, offset, FilePartSize);
}
catch (RpcException ex) when (ex.Code == 303 && ex.Message.StartsWith("FILE_MIGRATE_"))
{
var dcId = int.Parse(ex.Message[13..]);
client = await GetClientForDC(dcId, true);
fileBase = await client.Upload_GetFile(fileLocation, offset, FilePartSize);
}
catch (RpcException ex) when (ex.Code == 400 && ex.Message == "OFFSET_INVALID")
{
abort = true;
return 0;
}
catch (Exception)
{
abort = true;
throw;
}
finally
{
_parallelTransfers.Release();
}
if (fileBase is not Upload_File fileData)
throw new ApplicationException("Upload_GetFile returned unsupported " + fileBase.GetType().Name);
if (fileData.bytes.Length != FilePartSize) abort = true;
if (fileData.bytes.Length != 0)
{
fileType = fileData.type;
await writeSem.WaitAsync();
try
{
if (streamStartPos + offset != outputStream.Position) // if we're about to write out of order
{
await outputStream.FlushAsync(); // async flush, otherwise Seek would do a sync flush
outputStream.Seek(streamStartPos + offset, SeekOrigin.Begin);
}
await outputStream.WriteAsync(fileData.bytes, 0, fileData.bytes.Length);
maxOffsetSeen = Math.Max(maxOffsetSeen, offset + fileData.bytes.Length);
}
catch (Exception)
{
abort = true;
throw;
}
finally
{
writeSem.Release();
}
}
lock (tasks) tasks.Remove(offset);
return fileData.bytes.Length;
}
}
Task[] remainingTasks;
lock (tasks) remainingTasks = tasks.Values.ToArray();
await Task.WhenAll(remainingTasks); // wait completion and eventually propagate any task exception
await outputStream.FlushAsync();
outputStream.Seek(streamStartPos + maxOffsetSeen, SeekOrigin.Begin);
return fileType;
}
#endregion
/// <summary>Enable the collection of id/access_hash pairs (experimental)</summary>
public bool CollectAccessHash { get; set; }
readonly Dictionary<Type, Dictionary<long, long>> _accessHashes = new();
public IEnumerable<KeyValuePair<long, long>> AllAccessHashesFor<T>() where T : IObject
=> _accessHashes.GetValueOrDefault(typeof(T));
/// <summary>Retrieve the access_hash associated with this id (for a TL class) if it was collected</summary>
/// <remarks>This requires <see cref="CollectAccessHash"/> to be set to <see langword="true"/> first.
/// <br/>See <see href="https://github.com/wiz0u/WTelegramClient/tree/master/Examples/Program_CollectAccessHash.cs">Examples/Program_CollectAccessHash.cs</see> for how to use this</remarks>
/// <typeparam name="T">a TL object class. For example User, Channel or Photo</typeparam>
public long GetAccessHashFor<T>(long id) where T : IObject
{
lock (_accessHashes)
return _accessHashes.GetOrCreate(typeof(T)).TryGetValue(id, out var access_hash) ? access_hash : 0;
}
public void SetAccessHashFor<T>(long id, long access_hash) where T : IObject
{
lock (_accessHashes)
_accessHashes.GetOrCreate(typeof(T))[id] = access_hash;
}
internal void UpdateAccessHash(object obj, Type type, object access_hash)
{
if (!CollectAccessHash) return;
if (access_hash is not long accessHash) return;
if (type.GetField("id") is not FieldInfo idField) return;
if (idField.GetValue(obj) is not long id)
if (idField.GetValue(obj) is not int idInt) return;
else id = idInt;
lock (_accessHashes)
_accessHashes.GetOrCreate(type)[id] = accessHash;
}
}
}
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