如何使用 Telegram API 实现授权?
How to implement authorization using a Telegram API?
我想使用 PHP 实现与 Telegram REST 交互的多重授权 API。
我要解决什么任务?好吧,这很简单:几十个用户(他们都有像这里一样的 carma(+10、-2、+1000 等)以及相关的组分类:网络管理员和客户)在我的网站上有一个用户配置文件。在他们达到一定数量的 carma 后,由于他们在个人资料中获得授权,他们将加入基于自动为他们生成的 Telegram 的私人聊天。
经过一些研究,我发现它很复杂,因为:
- 我从未有过 API 实施硬件绑定社交网络的经验。
我看了一下https://core.telegram.org/api/auth,但是如何实现这些功能(例如auth.sendCode)完全不明白,使用PHP或任何其他语言.如果这些命令应该作为 JSON 发送到服务器,那么它看起来不像 JSON:
auth.sentCode#efed51d9 phone_registered:Bool phone_code_hash:string send_call_timeout:int is_password:Bool = auth.SentCode;
这是什么?它是用什么语言写的?
UPD: 它是用 TL(Type Language)写的:https://core.telegram.org/mtproto/TL
我研究了几个客户端(Webogram、Telegram-cli (tg)、tdesktop)的源代码,发现了https://core.telegram.org/mtproto
[的几个实现=53=]
不幸的是,none 他们这边支持多重授权,经过一些研究,我不知道去哪里更深入地了解更多信息。
此外,这些实现看起来笨重且复杂(例如,https://github.com/vysheng/tg):
我看到一堆服务器 (./tg/tgl/tgl.h):
#define TG_SERVER_1 "149.154.175.50"
#define TG_SERVER_2 "149.154.167.51"
#define TG_SERVER_3 "149.154.175.100"
#define TG_SERVER_4 "149.154.167.91"
#define TG_SERVER_5 "149.154.171.5"
我发现了几个可能合适的函数 (./tg/tgl/queries.c):
void empty_auth_file (void) {
if (TLS->test_mode) {
bl_do_dc_option (TLS, 1, "", 0, TG_SERVER_TEST_1, strlen (TG_SERVER_TEST_1), 443);
bl_do_dc_option (TLS, 2, "", 0, TG_SERVER_TEST_2, strlen (TG_SERVER_TEST_2), 443);
bl_do_dc_option (TLS, 3, "", 0, TG_SERVER_TEST_3, strlen (TG_SERVER_TEST_3), 443);
bl_do_set_working_dc (TLS, TG_SERVER_TEST_DEFAULT);
} else {
bl_do_dc_option (TLS, 1, "", 0, TG_SERVER_1, strlen (TG_SERVER_1), 443);
bl_do_dc_option (TLS, 2, "", 0, TG_SERVER_2, strlen (TG_SERVER_2), 443);
bl_do_dc_option (TLS, 3, "", 0, TG_SERVER_3, strlen (TG_SERVER_3), 443);
bl_do_dc_option (TLS, 4, "", 0, TG_SERVER_4, strlen (TG_SERVER_4), 443);
bl_do_dc_option (TLS, 5, "", 0, TG_SERVER_5, strlen (TG_SERVER_5), 443);
bl_do_set_working_dc (TLS, TG_SERVER_DEFAULT);
}
}
void bl_do_dc_option (struct tgl_state *TLS, int id, const char *name, int l1, const char *ip, int l2, int port) {
struct tgl_dc *DC = TLS->DC_list[id];
if (DC && !strncmp (ip, DC->ip, l2)) { return; }
clear_packet ();
out_int (CODE_binlog_dc_option);
out_int (id);
out_cstring (name, l1);
out_cstring (ip, l2);
out_int (port);
add_log_event (TLS, packet_buffer, 4 * (packet_ptr - packet_buffer));
}
等等
我应该将哪些文件传输到 PHP 以实现多用户身份验证?
你能帮我知道从哪里开始以及如何让它比现在更容易吗?
提前致谢!
到目前为止,我已经能够完全实现电报授权,但不是您要求的语言 - PHP,我使用了 vb.Net。但是,我相信同样的逻辑应该适用。
创建电报授权密钥
Telegram API 绝非易事。研究现有的 src 代码可能会让人望而生畏(恕我直言)。因此,我的方法是研究在线 API 文档并实施下面链接中概述的 sample-auth_key。
https://core.telegram.org/mtproto/auth_key
https://core.telegram.org/mtproto/samples-auth_key
这种方法将使您更好地理解和介绍整个 Telegram API 中使用的原语,并可能帮助您开始组织自己的一组函数和例程来处理您需要的功能和例程后续步骤 - 实现 API 的其他功能,因为生成 AuthKey 只是开始。
步骤 1
所有通信均通过 TCP - 获得唯一的 api_id (https://core.telegram.org/api/obtaining_api_id#obtaining-api-id) 后,您会发现以下 IP 广告用于测试:149.154.167.40: 433 此时生成 AuthKey
不需要 api_id
设置您首选的Send/Receive TCP 处理循环
方法
我有一个私有的 SendData,它只是将一个字节发送到连接到上面给定 IP 地址的实时套接字
Private Sub SendData(b() As Byte, Optional read As Boolean = False)
If Not IsConnected() Then
Log("Connection Closed!", ConsoleColor.DarkRed)
RaiseEvent Disconneted()
Exit Sub
End If
b = TCPPack(b)
Dim arg = New SocketAsyncEventArgs With {.RemoteEndPoint = ep}
AddHandler arg.Completed, AddressOf IO_Handler
arg.SetBuffer(b, 0, b.Length)
Try
If Not soc.SendAsync(arg) Then
IO_Handler(soc, arg)
End If
If read Then
ReadData()
End If
Catch ex As Exception
Log("SendData: " & ex.ToString, ConsoleColor.Red)
End Try
End Sub
Private Sub ReadData(Optional wait As Integer = 0)
If Not IsConnected() Then
Log("Connection Closed!", ConsoleColor.DarkRed)
RaiseEvent Disconneted()
Exit Sub
End If
Dim arg = New SocketAsyncEventArgs With {.RemoteEndPoint = ep}
AddHandler arg.Completed, AddressOf IO_Handler
Dim b(BUFFER_SIZE - 1) As Byte
arg.SetBuffer(b, 0, BUFFER_SIZE)
Try
If Not soc.ReceiveAsync(arg) Then
IO_Handler(soc, arg)
End If
Catch ex As Exception
Log("ReadMessages: " & ex.ToString, ConsoleColor.Red)
End Try
End Sub
Private Sub IO_Handler(sender As Object, e As SocketAsyncEventArgs)
Log($"{e.LastOperation}:{e.SocketError}:{e.BytesTransferred}", ConsoleColor.Cyan)
Select Case e.SocketError
Case SocketError.Success
Select Case e.LastOperation
Case SocketAsyncOperation.Connect 'A socket Connect operation.
Log("Connected to " & e.ConnectSocket.RemoteEndPoint.ToString, ConsoleColor.Green)
are.Set()
Case SocketAsyncOperation.Disconnect, SocketAsyncOperation.Connect
RaiseEvent Disconneted()
Case SocketAsyncOperation.Receive 'A socket Receive operation.
HandleData(e)
End Select
Case SocketError.ConnectionAborted
RaiseEvent Disconneted()
End Select
End Sub
Private Sub HandleData(e As SocketAsyncEventArgs)
If e.BytesTransferred = 0 Then --no pending data
Log("The remote end has closed the connection.")
Exit Sub
End If
Dim len As Integer = e.Buffer(0)
Dim start = 1
If len = &H7F Then
len = e.Buffer(1)
len += e.Buffer(2) << 8
len += e.Buffer(3) << 16
start = 4
End If
len = 4 * len
Dim data(len - 1) As Byte
Array.Copy(e.Buffer, start, data, 0, len)
ProcessResponse(data)
ReadData()
End Sub
最后,对于这一步,我们需要一个 TcpPack() 方法来帮助我们以 Telegram 期望的格式填充数据 - 请参阅下面的代码和注释
Private Function TCPPack(b As Byte()) As Byte()
Dim a = New List(Of Byte)
Dim len = CByte(b.Length / 4)
If efSent = False Then --TCP abridged version
efSent = True
a.Add(&HEF)
End If
If len >= &H7F Then
a.Add(&H7F)
a.AddRange(BitConverter.GetBytes(len))
Else
a.Add(len)
End If
a.AddRange(b) --only data, no sequence number, no CRC32
Return a.ToArray
End Function
第 2 步
有了基本的 TCP send/receive 例程设置,我们可以开始准备要发送到电报的数据包,并有子例程来处理收到的特定响应 - ProcessResponse(data)
接下来我们需要了解的是 Telegram 处理两大类消息的事实 -
未加密 - https://core.telegram.org/mtproto/description#unencrypted-message
这些是带有 auth_key_id =0 生成 AuthKey 的纯文本消息,自始至终都使用这种类型的消息
加密 - https://core.telegram.org/mtproto/description#encrypted-message-encrypted-data
与 Telegram 服务器的所有进一步通信都将通过加密消息进行
我选择有两个 类 来封装两种消息类型。然后我可以有两个 Send(m) 方法来处理每种类型
Private Sub Send(m As UnencryptedMessage)
Log(m.ToString, ConsoleColor.DarkYellow, logTime:=False)
SendData(m.data, True)
End Sub
Private Sub Send(m As EncryptedMessage)
Log(m.ToString, ConsoleColor.DarkYellow, logTime:=False)
SendData(m.data, True)
End Sub
现在只需要 UnencryptedMessage
Public Class UnencryptedMessage
Public Property auth_key_id As Int64
Public Property message_id As Int64
Public Property data_length As Int32
Public Property message_data As Byte()
Public Property message_type As String
Public Property data As Byte() = {}
Sub New(auth_key As Int64, message_id As Int64, data As Byte())
_auth_key_id = auth_key
_message_id = message_id
_data_length = data.Length
_message_data = data
message_type = B2Hr(data, 0, 4)
Dim a = New List(Of Byte)
a.AddRange(BitConverter.GetBytes(auth_key_id)) --{0, 0, 0, 0, 0, 0, 0, 0}
a.AddRange(BitConverter.GetBytes(message_id))
a.AddRange(BitConverter.GetBytes(data_length))
a.AddRange(message_data)
Me.data = a.ToArray
End Sub
Sub New(b As Byte())
data = b
Dim skip = 0
_auth_key_id = BitConverter.ToInt64(b, skip) : skip += 8
_message_id = BitConverter.ToInt64(b, skip) : skip += 8
_data_length = BitConverter.ToInt32(b, skip) : skip += 4
ReDim _message_data(_data_length - 1)
Array.Copy(b, skip, _message_data, 0, b.Length - skip)
message_type = B2Hr(_message_data, 0, 4)
End Sub
Public Overrides Function ToString() As String
Return $"
raw_data: {B2H(data)}
auth_key_id: {i2H(auth_key_id)} {auth_key_id}
message_id: {i2H(message_id)} {message_id}
data_length: {i2H(data_length)} {data_length}
message_data: {B2H(message_data)}
message_type: {message_type}
"
End Function
End Class
第 3 步
现在我们按照 https://core.telegram.org/mtproto/auth_key
中列出的一系列步骤进行操作
- Client sends query to server
req_pq#60469778 nonce:int128 = ResPQ The value of nonce is selected
randomly by the client (random number) and identifies the client
within this communication. Following this step, it is known to all.
- Server sends response of the form
resPQ#05162463 nonce:int128 server_nonce:int128 pq:string
server_public_key_fingerprints:Vector long = ResPQ
我的方法很简单:
Sub RequestPQAuthorization()
Send(MTProto.req_pq)
End Sub
在一个名为 MTProto 的 Class 中,我根据交换的每个步骤的需要实现了一组共享函数。每种方法都只是建立一个加密的数据结构,该结构将按上述方式发送到需要的地方
我们开始于:req_pq
Shared Function req_pq(Optional nonce As Byte() = Nothing) As UnencryptedMessage
--req_pq#60469778
--nonce:int128
If nonce Is Nothing Then
ReDim nonce(15)
RND.NextBytes(nonce)
End If
Dim d = New List(Of Byte)
d.AddRange({120, 151, 70, 96}) --60469778
d.AddRange(nonce)
Return New UnencryptedMessage(0, CreateMessageId, d.ToArray)
End Function
Private Shared Function CreateMessageId() As Int64
Return CLng((Date.UtcNow.Ticks - ZERO_TICK) * 429.4967296)
End Function
Public Const ZERO_TICK = 621355968000000000 -- 即 1970-01-01T00:00:00Z(1970 年 1 月 1 日,12:00 AM UTC)
现在我们的流程响应方法来自步骤1
Private Sub ProcessResponse(data As Byte())
Try
Dim r = New UnencryptedMessage(data)
Log(r.ToString, ConsoleColor.Yellow, logTime:=False)
Select Case r.message_type
Case resPQ.Classid
RequestDHKeyExchange(New resPQ(r.message_data))
Case server_DH_params_ok.Classid
RequestSetDH_params(New server_DH_params_ok(r.message_data), new_nonce)
Case server_DH_params_fail.Classid
Log(New server_DH_params_fail(r.message_data).ToString, ConsoleColor.DarkMagenta)
Case dh_gen_ok.Classid
Log(New dh_gen_ok(r.message_data).ToString, ConsoleColor.Green)
Case dh_gen_retry.Classid
Log(New dh_gen_retry(r.message_data).ToString, ConsoleColor.DarkMagenta)
Case dh_gen_fail.Classid
Log(New dh_gen_fail(r.message_data).ToString, ConsoleColor.DarkMagenta)
Case Else
Log($"Unhandled type: {r.message_type}", ConsoleColor.Magenta)
End Select
Catch ex As Exception
Log($"Error: {ex.ToString}", ConsoleColor.Red)
Log(B2H(data), ConsoleColor.DarkRed, logTime:=False)
End Try
End Sub
到目前为止很好,收到的每个响应都有一个 message_type 代码。
我们可以打开它并确定如何处理每个。我们现在需要处理 resPQ。
我所做的是创建一组 类 每个处理特定响应类型
''' <summary>
''' resPQ#05162463
''' nonce:int128 server_nonce:int128 pq:string server_public_key_fingerprints:Vector long = ResPQ
''' </summary>
Public NotInheritable Class resPQ : Inherits TLObject
Public Shared Shadows ReadOnly Property Classid As String = "05162463"
Public Property nonce As Byte()
Public Property server_nonce As Byte()
Public Property pq As Byte()
Public Property fingerprints As List(Of UInt64)
Public Property count As Int32
Sub New(data As Byte())
Dim skip = 4
nonce = Slice(data, skip, 16) : skip += 16
server_nonce = Slice(data, skip, 16) : skip += 16
skip += 1 'length of pq:string
pq = Slice(data, skip, 8) : skip += 8
skip += 3 'padding to complete the 4-bytes
skip += 4 '%(Vector long) 1cb5c415
count = i32r(data, skip) : skip += 4
fingerprints = New List(Of UInt64)
For i = 0 To count - 1
fingerprints.Add(u64r(data, skip))
Next
End Sub
Public Overrides Function ToString() As String
Return $"
classid: {NameOf(resPQ)}#{Classid}
nonce: {B2H(nonce)}
server_nonce: {B2H(server_nonce)}
pq: {B2H(pq)} {u64(pq)}
count: {i2H(count)} {count}
fingerprints: {i2H(fingerprints(0))} {fingerprints(0)}
"
End Function
End Class
每个都基于这个简单的对象
Public MustInherit Class TLObject
Public Shared Property ClassId As String
Public MustOverride Overrides Function ToString() As String
End Class
在此基础上,我们处理第 3 步和第 4 步
Proof of work 3) Client decomposes pq into prime factors such that p <
q.
This starts a round of Diffie-Hellman key exchanges.
Presenting proof of work; Server authentication 4) Client sends query
to server
req_DH_params#d712e4be nonce:int128 server_nonce:int128 p:string
q:string public_key_fingerprint:long encrypted_data:string =
Server_DH_Params
这是在我上面的 ProcessResponse 例程中 RequestDHKeyExchange(New resPQ(r.message_data)) 发起的
Sub RequestDHKeyExchange(r As resPQ)
Log(r.ToString, ConsoleColor.Gray, logTime:=False)
'decompose prime cofactors
Dim pp = New PrimeProduct(r.pq)
Log(pp.ToString, ConsoleColor.Gray, logTime:=False)
'encrypted_data Generation
Dim pq = New P_Q_inner_data(r.pq, pp.p, pp.q, r.nonce, r.server_nonce)
new_nonce = pq.new_nonce
'The serialization Of P_Q_inner_data produces some String data. This Is followed by encrypted_data
'data_with_hash := SHA1(data) + data + (any random bytes); such that the length equal 255
Dim data_with_hash = New List(Of Byte)
'SHA1(data) = xxx- 40 =20 bytes
Using sha1 = New SHA1Managed
Dim b = pq.ToBytes
data_with_hash.AddRange(sha1.ComputeHash(b))
data_with_hash.AddRange(b)
End Using
If data_with_hash.Count < 255 Then
Dim pad(255 - data_with_hash.Count - 1) As Byte
RND.NextBytes(pad)
data_with_hash.AddRange(pad)
End If
'RSA(data_with_hash, server_public_key) = xxx - 512 = 256 bytes
Dim key = i2H(r.fingerprints(0)) 'c3b42b026ce86b21
Dim zb = Crypto.rsaEncrypt(data_with_hash.ToArray, key)
Send(MTProto.req_DH_params(r.nonce, r.server_nonce, pp.p, pp.q, r.fingerprints(0), zb))
End Sub
您可以使用自己的 Prime-Decomposition 实现来替换此行 Dim pp = New PrimeProduct(r.pq)
这是我如何使用 PollardBrent(Pollard Rho Brent 整数分解)
学习的示例
好的,如果你能跟进到这里,你就会对我如何逐步分解 AuthKey 实现有一个大概的了解。
您应该能够 运行 完成剩余的步骤 5-9。打字太累了...
如果到目前为止这个答案对任何人有帮助,那么我会抽出时间来整理和 post 剩下的部分。
我相信您一路积累的例程和知识应该会为您提供从头开始理解和实现您自己的独立 Telegram API 代码所需的工具。
已完成交互转储
03:33:26.591 Connect:Success:0
03:33:26.593 Connected to 149.154.167.40:443
03:33:26.598
raw_data: 000000000000000000DC799836FE075614000000789746604479257F6C01C039A3DEAD031BC2D6A4
auth_key_id: 0000000000000000 0
message_id: 5607FE369879DC00 6199202922538589184
data_length: 00000014 20
message_data: 789746604479257F6C01C039A3DEAD031BC2D6A4
message_type: 60469778
03:33:26.600 Send:Success:42
03:33:26.735 Receive:Success:85
03:33:26.737
raw_data: 0000000000000000015CF64539FE075640000000632416054479257F6C01C039A3DEAD031BC2D6A44F9DB065B36308CF4D9965725DD7153D0818DDCAF407B7CDCD00000015C4B51C01000000216BE86C022BB4C3
auth_key_id: 0000000000000000 0
message_id: 5607FE3945F65C01 6199202934039141377
data_length: 00000040 64
message_data: 632416054479257F6C01C039A3DEAD031BC2D6A44F9DB065B36308CF4D9965725DD7153D0818DDCAF407B7CDCD00000015C4B51C01000000216BE86C022BB4C3
message_type: 05162463
03:33:26.743
classid: resPQ#05162463
nonce: 4479257F6C01C039A3DEAD031BC2D6A4
server_nonce: 4F9DB065B36308CF4D9965725DD7153D
pq: 18DDCAF407B7CDCD 1791811376213642701
count: 00000001 1
fingerprints: C3B42B026CE86B21 14101943622620965665
03:33:26.810
PQ: 18DDCAF407B7CDCD 1791811376213642701
P: 45F57B87 1173715847
Q: 5AFE490B 1526614283
03:33:26.930
raw_data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
auth_key_id: 0000000000000000 0
message_id: 5607FE36EE3C4000 6199202923977392128
data_length: 00000140 320
message_data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
message_type: D712E4BE
03:33:26.933 Send:Success:341
03:33:27.217 Receive:Success:656
03:33:27.217
raw_data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
auth_key_id: 0000000000000000 0
message_id: 5607FE399F9A1C01 6199202935543045121
data_length: 00000278 632
message_data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
message_type: D0E8075C
03:33:27.240
classid: server_DH_params_ok#D0E8075C
nonce: 4479257F6C01C039A3DEAD031BC2D6A4
server_nonce: 4F9DB065B36308CF4D9965725DD7153D
enc_answer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
tmp_aes_key: 297CB750FF0052B67515B3F11B45F11F15D106BC25ED0027570D5B9D83102BFA
tmp_aes_iv: CBDCF40A77B6A1C7CE74A1F8EC8E091A49FAD3B9A2499BFFFD084D537A53B36D
answer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
classid: Server_DH_inner_data#B5890DBA
nonce: 4479257F6C01C039A3DEAD031BC2D6A4
server_nonce: 4F9DB065B36308CF4D9965725DD7153D
g: 00000003 3
dh_prime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
g_a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
server_time: 5607FE39 1443364409
client_time: 5607FE37 1443364407
padding: 646CF781176C3EAC
DH_Prime is Safe? = True
classid: Client_DH_Inner_Data#6643B654
nonce: 4479257F6C01C039A3DEAD031BC2D6A4
server_nonce: 4F9DB065B36308CF4D9965725DD7153D
retry_id: 0000000000000000 0
g_b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
03:33:27.590 enc_data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
03:33:27.810 auth_Key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
03:33:27.813
raw_data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
auth_key_id: 0000000000000000 0
message_id: 5607FE37D0489C00 6199202927769852928
data_length: 00000178 376
message_data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
message_type: F5045F1F
03:33:27.823 Send:Success:397
03:33:27.983 Receive:Success:73
03:33:27.985
.....
此致。
作为我最初 post 的后续,一旦您完成了 auth_key 步骤,以下内容将有助于您快速了解电报其余部分的工作方式。
1) 下载研究Webogram的源码,基本都是JavaScript.
2) 运行 使用 console.logs 修改的 Webogram 的本地副本,以清楚地逐步向您展示 "a working telegram client" 和电报服务器之间发生的交互。这将使您 work-flow 了解 Telegram 客户端和 Telegram 的真正工作原理。
3) 使用您最熟悉的任何开发语言来构建您自己的协议解析器实现,用于将二进制流转换为 TL 类型和 vice-versa
编码这一步其实还是蛮好玩的。我刚刚在 Elixir
中构建了一个简单的协议解析器
4) 这是来自 Webogram 修改副本的示例日志。
显示成功生成 Auth_key
后要执行的步骤
您甚至可以看到它必须在哪里生成新的 Auth_key in-flight,因为它将经过验证的您切换到正确的数据中心,重新创建他的会话,新的 server_salts 等(未显示)
此致。
ID time info log
121 12:26:35.318 new Auth Auth successfull! dc= 2 mtproto.js:479:15
127 12:26:35.325 CALL =>> API call help.getNearestDc Object { } Object { dcID: 2, createNetworker: true } mtproto.js:749:4
128 12:26:35.327 enc-START [invokeWithLayer] 45 mtproto.js:753:7
168 12:26:35.551 SEND POST XHR http://149.154.167.51/apiw1 [HTTP/1.1 200 OK 708ms]
189 12:26:36.522 msg-r <<=m [msg_container] Object { _: "msg_container", messages: Array[2] } mtproto.js:1452:5
190 12:26:36.523 msg-r <<=m [message] Object { _: "message", msg_id: "6242200678614200321", seqno: 1, bytes: 28, body: Object } mtproto.js:1452:5
191 12:26:36.525 msg-r <<=m [new_session_created] Object { _: "new_session_created", first_msg_id: "6242200671500883244", unique_id: "645797764649391412", server_salt: "17212767594123551779" } mtproto.js:1452:5
192 12:26:36.526 msg-r <<=m [message] Object { _: "message", msg_id: "6242200678630513665", seqno: 3, bytes: 28, body: Object } mtproto.js:1452:5
193 12:26:36.528 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200671500883244", result: Object } mtproto.js:1452:5
257 12:26:39.239 new Auth Auth successfull! dc= 4 mtproto.js:479:15
270 12:26:59.606 CALL =>> API call auth.sendCode Object { phone_number: "2348022002298", sms_type: 5, api_id: 38665, api_hash: "880c7847a517fc455d7d54731e90ad4e", lang_code: "en-US" } Object { dcID: 2, createNetworker: true } mtproto.js:749:4
321 12:27:00.048 SEND POST XHR http://149.154.167.51/apiw1 [HTTP/1.1 200 OK 422ms]
328 12:27:00.981 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200779464550396", result: Object } mtproto.js:1452:5
331 12:27:00.986 CALL =>> API call auth.sendCode Object { phone_number: "2348022002298", sms_type: 5, api_id: 38665, api_hash: "880c7847a517fc455d7d54731e90ad4e", lang_code: "en-US" } Object { dcID: "4", createNetworker: true, resultType: "auth.SentCode", messageID: "6242200779464550396" } mtproto.js:749:4
332 12:27:00.987 enc-START [invokeWithLayer] 45 mtproto.js:753:7
377 12:27:01.288 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 321ms]
398 12:27:02.170 msg-r <<=m [msg_container] Object { _: "msg_container", messages: Array[2] } mtproto.js:1452:5
399 12:27:02.171 msg-r <<=m [message] Object { _: "message", msg_id: "6242200787684582401", seqno: 1, bytes: 28, body: Object } mtproto.js:1452:5
400 12:27:02.172 msg-r <<=m [new_session_created] Object { _: "new_session_created", first_msg_id: "6242200784556418516", unique_id: "13396961033572361155", server_salt: "7076519506215495914" } mtproto.js:1452:5
401 12:27:02.173 msg-r <<=m [message] Object { _: "message", msg_id: "6242200787775901697", seqno: 3, bytes: 48, body: Object } mtproto.js:1452:5
402 12:27:02.174 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200784556418516", result: Object } mtproto.js:1452:5
407 12:27:02.344 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 25154ms]
414 12:27:03.068 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200779464550396" } mtproto.js:1452:5
420 12:27:15.639 CALL =>> API call auth.sendSms Object { phone_number: "2348022002298", phone_code_hash: "696b5befd8e809de81" } Object { dcID: "4", createNetworker: true, resultType: "auth.SentCode", messageID: "6242200784556418516" } mtproto.js:749:4
468 12:27:15.924 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 457ms]
475 12:27:17.154 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200848242727644", result: true } mtproto.js:1452:5
482 12:27:27.511 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200848242727644" } mtproto.js:1452:5
505 12:27:31.003 SEND POST XHR http://149.154.167.51/apiw1 [HTTP/1.1 200 OK 25161ms]
511 12:27:40.133 CALL =>> API call auth.signIn Object { phone_number: "2348022002298", phone_code_hash: "696b5befd8e809de81", phone_code: "26914" } Object { dcID: "4", createNetworker: true, resultType: "Bool", messageID: "6242200848242727644" } mtproto.js:749:4
560 12:27:40.454 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 756ms]
567 12:27:41.223 msg-r <<=m [msg_container] Object { _: "msg_container", messages: Array[2] } mtproto.js:1452:5
568 12:27:41.224 msg-r <<=m [message] Object { _: "message", msg_id: "6242200956100910081", seqno: 7, bytes: 80, body: Object } mtproto.js:1452:5
569 12:27:41.225 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200954555850604", result: Object } mtproto.js:1452:5
570 12:27:41.226 msg-r <<=m [message] Object { _: "message", msg_id: "6242200956751929345", seqno: 9, bytes: 88, body: Object } mtproto.js:1452:5
571 12:27:41.227 msg-r <<=m [updates] Object { _: "updates", updates: Array[1], users: Array[0], chats: Array[0], date: 1453375666, seq: 2 } mtproto.js:1452:5
579 12:27:41.758 CALL =>> API call updates.getState Object { } Object { noErrorBox: true } mtproto.js:749:4
586 12:27:41.842 CALL =>> API call account.updateStatus Object { offline: false } Object { noErrorBox: true } mtproto.js:749:4
594 12:27:41.850 CALL =>> API call messages.getDialogs Object { offset_date: 0, offset_id: 0, offset_peer: Object, limit: 20 } Object { timeout: 300 } mtproto.js:749:4
655 12:27:42.965 CALL =>> API call messages.getAllStickers Object { hash: "" } Object { } mtproto.js:749:4
696 12:27:43.920 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 908ms]
712 12:27:44.613 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 303ms]
727 12:27:46.488 msg-r <<=m [msg_container] Object { _: "msg_container", messages: Array[3] } mtproto.js:1452:5
728 12:27:46.489 msg-r <<=m [message] Object { _: "message", msg_id: "6242200970862778369", seqno: 11, bytes: 36, body: Object } mtproto.js:1452:5
729 12:27:46.489 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200960159395644", result: Object } mtproto.js:1452:5
730 12:27:46.490 msg-r <<=m [message] Object { _: "message", msg_id: "6242200970891641857", seqno: 13, bytes: 776, body: Object } mtproto.js:1452:5
731 12:27:46.492 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200960356118244", result: Object } mtproto.js:1452:5
732 12:27:46.494 msg-r <<=m [message] Object { _: "message", msg_id: "6242200970897958913", seqno: 15, bytes: 16, body: Object } mtproto.js:1452:5
733 12:27:46.495 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200960337591900", result: true } mtproto.js:1452:5
740 12:27:46.567 msg-r <<=m [msg_container] Object { _: "msg_container", messages: Array[4] } mtproto.js:1452:5
741 12:27:46.568 msg-r <<=m [message] Object { _: "message", msg_id: "6242200970862778369", seqno: 11, bytes: 36, body: Object } mtproto.js:1452:5
742 12:27:46.569 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200960159395644" } mtproto.js:1452:5
743 12:27:46.569 msg-r <<=m [message] Object { _: "message", msg_id: "6242200970891641857", seqno: 13, bytes: 776, body: Object } mtproto.js:1452:5
744 12:27:46.570 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200960356118244" } mtproto.js:1452:5
745 12:27:46.571 msg-r <<=m [message] Object { _: "message", msg_id: "6242200970897958913", seqno: 15, bytes: 16, body: Object } mtproto.js:1452:5
746 12:27:46.572 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200960337591900" } mtproto.js:1452:5
747 12:27:46.573 msg-r <<=m [message] Object { _: "message", msg_id: "6242200973791209473", seqno: 17, bytes: 76, body: Object } mtproto.js:1452:5
748 12:27:46.574 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200964892679524", result: Object } mtproto.js:1452:5
754 12:27:46.584 CALL =>> API call messages.getStickerSet Object { stickerset: Object } Object { } mtproto.js:749:4
811 12:27:47.346 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 539ms]
818 12:27:48.175 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200981275507620", result: Object } mtproto.js:1452:5
857 12:27:49.351 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 25141ms]
864 12:27:57.219 msg-r <<=m [msgs_ack] Object { _: "msgs_ack", msg_ids: Array[0] } mtproto.js:1452:5
870 12:28:04.673 CALL =>> API call messages.readHistory Object { peer: Object, max_id: 0 } Object { } mtproto.js:749:4
908 12:28:04.860 CALL =>> API call messages.getHistory Object { peer: Object, offset_id: 16, add_offset: 0, limit: 20 } Object { timeout: 300, noErrorBox: true } mtproto.js:749:4
922 12:28:05.713 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 367ms]
929 12:28:06.096 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242201058769372356", result: Object } mtproto.js:1452:5
936 12:28:15.702 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242201058769372356" } mtproto.js:1452:5
977 12:28:16.122 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 25170ms]
983 12:28:26.637 CALL =>> API call account.updateStatus Object { offline: true } Object { noErrorBox: true } mtproto.js:749:4
1016 12:28:26.660 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 302ms]
1023 12:28:27.062 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242201153183272948", result: true } mtproto.js:1452:5
1030 12:28:41.985 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242201153183272948" } mtproto.js:1452:5
1071 12:28:42.421 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 25165ms]
我写了一个PHP的mtproto实现,到目前为止我已经设法实现了TLserialization/deserialization、tcpabridged/intermediate/full连接、http/https连接。
我已经为所有 mtproto 方法实现了 OOP 包装器,一个基于 Python/wolfram alpha/php、HTML/Markdown 解析并支持提及的素数生成模块,bot API 文件id 支持,使用回调或 getupdates 更新处理,bot API <-> MTProto 对象转换,upload/download 包装器,bots/users 的登录包装器(支持 2FA),简单的错误处理,内部对等管理(您可以提供一个简单的机器人 API 聊天 ID、用户名或 tg-cli 格式的对等 ID 以发送消息或调用其他 mtproto 方法)我目前正在开发一个不错的 Lua 包装器允许使用 td-cli/tg-cli 机器人 w/ MadelineProto。
我还编写了一个 class 来为所有 mtproto methods/constructors/types 生成文档(可在 https://daniil.it/MadelineProto/API_docs 获得)。
MadelineProto 可以序列化为一个文件,以允许简单的会话存储。
如果有人感兴趣或想贡献,这里是 link 到 github 存储库:https://github.com/danog/MadelineProto
自 2018 年 2 月起,您可以在您的网站上使用官方 Telegram Login Widget。
我想使用 PHP 实现与 Telegram REST 交互的多重授权 API。
我要解决什么任务?好吧,这很简单:几十个用户(他们都有像这里一样的 carma(+10、-2、+1000 等)以及相关的组分类:网络管理员和客户)在我的网站上有一个用户配置文件。在他们达到一定数量的 carma 后,由于他们在个人资料中获得授权,他们将加入基于自动为他们生成的 Telegram 的私人聊天。
经过一些研究,我发现它很复杂,因为:
- 我从未有过 API 实施硬件绑定社交网络的经验。
我看了一下https://core.telegram.org/api/auth,但是如何实现这些功能(例如auth.sendCode)完全不明白,使用PHP或任何其他语言.如果这些命令应该作为 JSON 发送到服务器,那么它看起来不像 JSON:
auth.sentCode#efed51d9 phone_registered:Bool phone_code_hash:string send_call_timeout:int is_password:Bool = auth.SentCode;这是什么?它是用什么语言写的?
UPD: 它是用 TL(Type Language)写的:https://core.telegram.org/mtproto/TL
我研究了几个客户端(Webogram、Telegram-cli (tg)、tdesktop)的源代码,发现了https://core.telegram.org/mtproto
[的几个实现=53=]
不幸的是,none 他们这边支持多重授权,经过一些研究,我不知道去哪里更深入地了解更多信息。
此外,这些实现看起来笨重且复杂(例如,https://github.com/vysheng/tg):
我看到一堆服务器 (./tg/tgl/tgl.h):
#define TG_SERVER_1 "149.154.175.50"
#define TG_SERVER_2 "149.154.167.51"
#define TG_SERVER_3 "149.154.175.100"
#define TG_SERVER_4 "149.154.167.91"
#define TG_SERVER_5 "149.154.171.5"
我发现了几个可能合适的函数 (./tg/tgl/queries.c):
void empty_auth_file (void) {
if (TLS->test_mode) {
bl_do_dc_option (TLS, 1, "", 0, TG_SERVER_TEST_1, strlen (TG_SERVER_TEST_1), 443);
bl_do_dc_option (TLS, 2, "", 0, TG_SERVER_TEST_2, strlen (TG_SERVER_TEST_2), 443);
bl_do_dc_option (TLS, 3, "", 0, TG_SERVER_TEST_3, strlen (TG_SERVER_TEST_3), 443);
bl_do_set_working_dc (TLS, TG_SERVER_TEST_DEFAULT);
} else {
bl_do_dc_option (TLS, 1, "", 0, TG_SERVER_1, strlen (TG_SERVER_1), 443);
bl_do_dc_option (TLS, 2, "", 0, TG_SERVER_2, strlen (TG_SERVER_2), 443);
bl_do_dc_option (TLS, 3, "", 0, TG_SERVER_3, strlen (TG_SERVER_3), 443);
bl_do_dc_option (TLS, 4, "", 0, TG_SERVER_4, strlen (TG_SERVER_4), 443);
bl_do_dc_option (TLS, 5, "", 0, TG_SERVER_5, strlen (TG_SERVER_5), 443);
bl_do_set_working_dc (TLS, TG_SERVER_DEFAULT);
}
}
void bl_do_dc_option (struct tgl_state *TLS, int id, const char *name, int l1, const char *ip, int l2, int port) {
struct tgl_dc *DC = TLS->DC_list[id];
if (DC && !strncmp (ip, DC->ip, l2)) { return; }
clear_packet ();
out_int (CODE_binlog_dc_option);
out_int (id);
out_cstring (name, l1);
out_cstring (ip, l2);
out_int (port);
add_log_event (TLS, packet_buffer, 4 * (packet_ptr - packet_buffer));
}
等等
我应该将哪些文件传输到 PHP 以实现多用户身份验证? 你能帮我知道从哪里开始以及如何让它比现在更容易吗?
提前致谢!
到目前为止,我已经能够完全实现电报授权,但不是您要求的语言 - PHP,我使用了 vb.Net。但是,我相信同样的逻辑应该适用。
创建电报授权密钥
Telegram API 绝非易事。研究现有的 src 代码可能会让人望而生畏(恕我直言)。因此,我的方法是研究在线 API 文档并实施下面链接中概述的 sample-auth_key。
https://core.telegram.org/mtproto/auth_key
https://core.telegram.org/mtproto/samples-auth_key
这种方法将使您更好地理解和介绍整个 Telegram API 中使用的原语,并可能帮助您开始组织自己的一组函数和例程来处理您需要的功能和例程后续步骤 - 实现 API 的其他功能,因为生成 AuthKey 只是开始。
步骤 1
所有通信均通过 TCP - 获得唯一的 api_id (https://core.telegram.org/api/obtaining_api_id#obtaining-api-id) 后,您会发现以下 IP 广告用于测试:149.154.167.40: 433 此时生成 AuthKey
不需要 api_id设置您首选的Send/Receive TCP 处理循环
方法我有一个私有的 SendData,它只是将一个字节发送到连接到上面给定 IP 地址的实时套接字
Private Sub SendData(b() As Byte, Optional read As Boolean = False)
If Not IsConnected() Then
Log("Connection Closed!", ConsoleColor.DarkRed)
RaiseEvent Disconneted()
Exit Sub
End If
b = TCPPack(b)
Dim arg = New SocketAsyncEventArgs With {.RemoteEndPoint = ep}
AddHandler arg.Completed, AddressOf IO_Handler
arg.SetBuffer(b, 0, b.Length)
Try
If Not soc.SendAsync(arg) Then
IO_Handler(soc, arg)
End If
If read Then
ReadData()
End If
Catch ex As Exception
Log("SendData: " & ex.ToString, ConsoleColor.Red)
End Try
End Sub
Private Sub ReadData(Optional wait As Integer = 0)
If Not IsConnected() Then
Log("Connection Closed!", ConsoleColor.DarkRed)
RaiseEvent Disconneted()
Exit Sub
End If
Dim arg = New SocketAsyncEventArgs With {.RemoteEndPoint = ep}
AddHandler arg.Completed, AddressOf IO_Handler
Dim b(BUFFER_SIZE - 1) As Byte
arg.SetBuffer(b, 0, BUFFER_SIZE)
Try
If Not soc.ReceiveAsync(arg) Then
IO_Handler(soc, arg)
End If
Catch ex As Exception
Log("ReadMessages: " & ex.ToString, ConsoleColor.Red)
End Try
End Sub
Private Sub IO_Handler(sender As Object, e As SocketAsyncEventArgs)
Log($"{e.LastOperation}:{e.SocketError}:{e.BytesTransferred}", ConsoleColor.Cyan)
Select Case e.SocketError
Case SocketError.Success
Select Case e.LastOperation
Case SocketAsyncOperation.Connect 'A socket Connect operation.
Log("Connected to " & e.ConnectSocket.RemoteEndPoint.ToString, ConsoleColor.Green)
are.Set()
Case SocketAsyncOperation.Disconnect, SocketAsyncOperation.Connect
RaiseEvent Disconneted()
Case SocketAsyncOperation.Receive 'A socket Receive operation.
HandleData(e)
End Select
Case SocketError.ConnectionAborted
RaiseEvent Disconneted()
End Select
End Sub
Private Sub HandleData(e As SocketAsyncEventArgs)
If e.BytesTransferred = 0 Then --no pending data
Log("The remote end has closed the connection.")
Exit Sub
End If
Dim len As Integer = e.Buffer(0)
Dim start = 1
If len = &H7F Then
len = e.Buffer(1)
len += e.Buffer(2) << 8
len += e.Buffer(3) << 16
start = 4
End If
len = 4 * len
Dim data(len - 1) As Byte
Array.Copy(e.Buffer, start, data, 0, len)
ProcessResponse(data)
ReadData()
End Sub
最后,对于这一步,我们需要一个 TcpPack() 方法来帮助我们以 Telegram 期望的格式填充数据 - 请参阅下面的代码和注释
Private Function TCPPack(b As Byte()) As Byte()
Dim a = New List(Of Byte)
Dim len = CByte(b.Length / 4)
If efSent = False Then --TCP abridged version
efSent = True
a.Add(&HEF)
End If
If len >= &H7F Then
a.Add(&H7F)
a.AddRange(BitConverter.GetBytes(len))
Else
a.Add(len)
End If
a.AddRange(b) --only data, no sequence number, no CRC32
Return a.ToArray
End Function
第 2 步
有了基本的 TCP send/receive 例程设置,我们可以开始准备要发送到电报的数据包,并有子例程来处理收到的特定响应 - ProcessResponse(data)
接下来我们需要了解的是 Telegram 处理两大类消息的事实 -
未加密 - https://core.telegram.org/mtproto/description#unencrypted-message
这些是带有 auth_key_id =0 生成 AuthKey 的纯文本消息,自始至终都使用这种类型的消息
加密 - https://core.telegram.org/mtproto/description#encrypted-message-encrypted-data
与 Telegram 服务器的所有进一步通信都将通过加密消息进行
我选择有两个 类 来封装两种消息类型。然后我可以有两个 Send(m) 方法来处理每种类型
Private Sub Send(m As UnencryptedMessage)
Log(m.ToString, ConsoleColor.DarkYellow, logTime:=False)
SendData(m.data, True)
End Sub
Private Sub Send(m As EncryptedMessage)
Log(m.ToString, ConsoleColor.DarkYellow, logTime:=False)
SendData(m.data, True)
End Sub
现在只需要 UnencryptedMessage
Public Class UnencryptedMessage
Public Property auth_key_id As Int64
Public Property message_id As Int64
Public Property data_length As Int32
Public Property message_data As Byte()
Public Property message_type As String
Public Property data As Byte() = {}
Sub New(auth_key As Int64, message_id As Int64, data As Byte())
_auth_key_id = auth_key
_message_id = message_id
_data_length = data.Length
_message_data = data
message_type = B2Hr(data, 0, 4)
Dim a = New List(Of Byte)
a.AddRange(BitConverter.GetBytes(auth_key_id)) --{0, 0, 0, 0, 0, 0, 0, 0}
a.AddRange(BitConverter.GetBytes(message_id))
a.AddRange(BitConverter.GetBytes(data_length))
a.AddRange(message_data)
Me.data = a.ToArray
End Sub
Sub New(b As Byte())
data = b
Dim skip = 0
_auth_key_id = BitConverter.ToInt64(b, skip) : skip += 8
_message_id = BitConverter.ToInt64(b, skip) : skip += 8
_data_length = BitConverter.ToInt32(b, skip) : skip += 4
ReDim _message_data(_data_length - 1)
Array.Copy(b, skip, _message_data, 0, b.Length - skip)
message_type = B2Hr(_message_data, 0, 4)
End Sub
Public Overrides Function ToString() As String
Return $"
raw_data: {B2H(data)}
auth_key_id: {i2H(auth_key_id)} {auth_key_id}
message_id: {i2H(message_id)} {message_id}
data_length: {i2H(data_length)} {data_length}
message_data: {B2H(message_data)}
message_type: {message_type}
"
End Function
End Class
第 3 步
现在我们按照 https://core.telegram.org/mtproto/auth_key
中列出的一系列步骤进行操作
- Client sends query to server
req_pq#60469778 nonce:int128 = ResPQ The value of nonce is selected randomly by the client (random number) and identifies the client within this communication. Following this step, it is known to all.
- Server sends response of the form
resPQ#05162463 nonce:int128 server_nonce:int128 pq:string server_public_key_fingerprints:Vector long = ResPQ
我的方法很简单:
Sub RequestPQAuthorization()
Send(MTProto.req_pq)
End Sub
在一个名为 MTProto 的 Class 中,我根据交换的每个步骤的需要实现了一组共享函数。每种方法都只是建立一个加密的数据结构,该结构将按上述方式发送到需要的地方
我们开始于:req_pq
Shared Function req_pq(Optional nonce As Byte() = Nothing) As UnencryptedMessage
--req_pq#60469778
--nonce:int128
If nonce Is Nothing Then
ReDim nonce(15)
RND.NextBytes(nonce)
End If
Dim d = New List(Of Byte)
d.AddRange({120, 151, 70, 96}) --60469778
d.AddRange(nonce)
Return New UnencryptedMessage(0, CreateMessageId, d.ToArray)
End Function
Private Shared Function CreateMessageId() As Int64
Return CLng((Date.UtcNow.Ticks - ZERO_TICK) * 429.4967296)
End Function
Public Const ZERO_TICK = 621355968000000000 -- 即 1970-01-01T00:00:00Z(1970 年 1 月 1 日,12:00 AM UTC)
现在我们的流程响应方法来自步骤1
Private Sub ProcessResponse(data As Byte())
Try
Dim r = New UnencryptedMessage(data)
Log(r.ToString, ConsoleColor.Yellow, logTime:=False)
Select Case r.message_type
Case resPQ.Classid
RequestDHKeyExchange(New resPQ(r.message_data))
Case server_DH_params_ok.Classid
RequestSetDH_params(New server_DH_params_ok(r.message_data), new_nonce)
Case server_DH_params_fail.Classid
Log(New server_DH_params_fail(r.message_data).ToString, ConsoleColor.DarkMagenta)
Case dh_gen_ok.Classid
Log(New dh_gen_ok(r.message_data).ToString, ConsoleColor.Green)
Case dh_gen_retry.Classid
Log(New dh_gen_retry(r.message_data).ToString, ConsoleColor.DarkMagenta)
Case dh_gen_fail.Classid
Log(New dh_gen_fail(r.message_data).ToString, ConsoleColor.DarkMagenta)
Case Else
Log($"Unhandled type: {r.message_type}", ConsoleColor.Magenta)
End Select
Catch ex As Exception
Log($"Error: {ex.ToString}", ConsoleColor.Red)
Log(B2H(data), ConsoleColor.DarkRed, logTime:=False)
End Try
End Sub
到目前为止很好,收到的每个响应都有一个 message_type 代码。
我们可以打开它并确定如何处理每个。我们现在需要处理 resPQ。
我所做的是创建一组 类 每个处理特定响应类型
''' <summary>
''' resPQ#05162463
''' nonce:int128 server_nonce:int128 pq:string server_public_key_fingerprints:Vector long = ResPQ
''' </summary>
Public NotInheritable Class resPQ : Inherits TLObject
Public Shared Shadows ReadOnly Property Classid As String = "05162463"
Public Property nonce As Byte()
Public Property server_nonce As Byte()
Public Property pq As Byte()
Public Property fingerprints As List(Of UInt64)
Public Property count As Int32
Sub New(data As Byte())
Dim skip = 4
nonce = Slice(data, skip, 16) : skip += 16
server_nonce = Slice(data, skip, 16) : skip += 16
skip += 1 'length of pq:string
pq = Slice(data, skip, 8) : skip += 8
skip += 3 'padding to complete the 4-bytes
skip += 4 '%(Vector long) 1cb5c415
count = i32r(data, skip) : skip += 4
fingerprints = New List(Of UInt64)
For i = 0 To count - 1
fingerprints.Add(u64r(data, skip))
Next
End Sub
Public Overrides Function ToString() As String
Return $"
classid: {NameOf(resPQ)}#{Classid}
nonce: {B2H(nonce)}
server_nonce: {B2H(server_nonce)}
pq: {B2H(pq)} {u64(pq)}
count: {i2H(count)} {count}
fingerprints: {i2H(fingerprints(0))} {fingerprints(0)}
"
End Function
End Class
每个都基于这个简单的对象
Public MustInherit Class TLObject
Public Shared Property ClassId As String
Public MustOverride Overrides Function ToString() As String
End Class
在此基础上,我们处理第 3 步和第 4 步
Proof of work 3) Client decomposes pq into prime factors such that p < q.
This starts a round of Diffie-Hellman key exchanges.
Presenting proof of work; Server authentication 4) Client sends query to server
req_DH_params#d712e4be nonce:int128 server_nonce:int128 p:string q:string public_key_fingerprint:long encrypted_data:string = Server_DH_Params
这是在我上面的 ProcessResponse 例程中 RequestDHKeyExchange(New resPQ(r.message_data)) 发起的
Sub RequestDHKeyExchange(r As resPQ)
Log(r.ToString, ConsoleColor.Gray, logTime:=False)
'decompose prime cofactors
Dim pp = New PrimeProduct(r.pq)
Log(pp.ToString, ConsoleColor.Gray, logTime:=False)
'encrypted_data Generation
Dim pq = New P_Q_inner_data(r.pq, pp.p, pp.q, r.nonce, r.server_nonce)
new_nonce = pq.new_nonce
'The serialization Of P_Q_inner_data produces some String data. This Is followed by encrypted_data
'data_with_hash := SHA1(data) + data + (any random bytes); such that the length equal 255
Dim data_with_hash = New List(Of Byte)
'SHA1(data) = xxx- 40 =20 bytes
Using sha1 = New SHA1Managed
Dim b = pq.ToBytes
data_with_hash.AddRange(sha1.ComputeHash(b))
data_with_hash.AddRange(b)
End Using
If data_with_hash.Count < 255 Then
Dim pad(255 - data_with_hash.Count - 1) As Byte
RND.NextBytes(pad)
data_with_hash.AddRange(pad)
End If
'RSA(data_with_hash, server_public_key) = xxx - 512 = 256 bytes
Dim key = i2H(r.fingerprints(0)) 'c3b42b026ce86b21
Dim zb = Crypto.rsaEncrypt(data_with_hash.ToArray, key)
Send(MTProto.req_DH_params(r.nonce, r.server_nonce, pp.p, pp.q, r.fingerprints(0), zb))
End Sub
您可以使用自己的 Prime-Decomposition 实现来替换此行 Dim pp = New PrimeProduct(r.pq)
这是我如何使用 PollardBrent(Pollard Rho Brent 整数分解)
好的,如果你能跟进到这里,你就会对我如何逐步分解 AuthKey 实现有一个大概的了解。
您应该能够 运行 完成剩余的步骤 5-9。打字太累了...
如果到目前为止这个答案对任何人有帮助,那么我会抽出时间来整理和 post 剩下的部分。
我相信您一路积累的例程和知识应该会为您提供从头开始理解和实现您自己的独立 Telegram API 代码所需的工具。
已完成交互转储
03:33:26.591 Connect:Success:0
03:33:26.593 Connected to 149.154.167.40:443
03:33:26.598
raw_data: 000000000000000000DC799836FE075614000000789746604479257F6C01C039A3DEAD031BC2D6A4
auth_key_id: 0000000000000000 0
message_id: 5607FE369879DC00 6199202922538589184
data_length: 00000014 20
message_data: 789746604479257F6C01C039A3DEAD031BC2D6A4
message_type: 60469778
03:33:26.600 Send:Success:42
03:33:26.735 Receive:Success:85
03:33:26.737
raw_data: 0000000000000000015CF64539FE075640000000632416054479257F6C01C039A3DEAD031BC2D6A44F9DB065B36308CF4D9965725DD7153D0818DDCAF407B7CDCD00000015C4B51C01000000216BE86C022BB4C3
auth_key_id: 0000000000000000 0
message_id: 5607FE3945F65C01 6199202934039141377
data_length: 00000040 64
message_data: 632416054479257F6C01C039A3DEAD031BC2D6A44F9DB065B36308CF4D9965725DD7153D0818DDCAF407B7CDCD00000015C4B51C01000000216BE86C022BB4C3
message_type: 05162463
03:33:26.743
classid: resPQ#05162463
nonce: 4479257F6C01C039A3DEAD031BC2D6A4
server_nonce: 4F9DB065B36308CF4D9965725DD7153D
pq: 18DDCAF407B7CDCD 1791811376213642701
count: 00000001 1
fingerprints: C3B42B026CE86B21 14101943622620965665
03:33:26.810
PQ: 18DDCAF407B7CDCD 1791811376213642701
P: 45F57B87 1173715847
Q: 5AFE490B 1526614283
03:33:26.930
raw_data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
auth_key_id: 0000000000000000 0
message_id: 5607FE36EE3C4000 6199202923977392128
data_length: 00000140 320
message_data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
message_type: D712E4BE
03:33:26.933 Send:Success:341
03:33:27.217 Receive:Success:656
03:33:27.217
raw_data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
auth_key_id: 0000000000000000 0
message_id: 5607FE399F9A1C01 6199202935543045121
data_length: 00000278 632
message_data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
message_type: D0E8075C
03:33:27.240
classid: server_DH_params_ok#D0E8075C
nonce: 4479257F6C01C039A3DEAD031BC2D6A4
server_nonce: 4F9DB065B36308CF4D9965725DD7153D
enc_answer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
tmp_aes_key: 297CB750FF0052B67515B3F11B45F11F15D106BC25ED0027570D5B9D83102BFA
tmp_aes_iv: CBDCF40A77B6A1C7CE74A1F8EC8E091A49FAD3B9A2499BFFFD084D537A53B36D
answer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
classid: Server_DH_inner_data#B5890DBA
nonce: 4479257F6C01C039A3DEAD031BC2D6A4
server_nonce: 4F9DB065B36308CF4D9965725DD7153D
g: 00000003 3
dh_prime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
g_a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
server_time: 5607FE39 1443364409
client_time: 5607FE37 1443364407
padding: 646CF781176C3EAC
DH_Prime is Safe? = True
classid: Client_DH_Inner_Data#6643B654
nonce: 4479257F6C01C039A3DEAD031BC2D6A4
server_nonce: 4F9DB065B36308CF4D9965725DD7153D
retry_id: 0000000000000000 0
g_b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
03:33:27.590 enc_data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
03:33:27.810 auth_Key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
03:33:27.813
raw_data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
auth_key_id: 0000000000000000 0
message_id: 5607FE37D0489C00 6199202927769852928
data_length: 00000178 376
message_data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
message_type: F5045F1F
03:33:27.823 Send:Success:397
03:33:27.983 Receive:Success:73
03:33:27.985
.....
此致。
作为我最初 post 的后续,一旦您完成了 auth_key 步骤,以下内容将有助于您快速了解电报其余部分的工作方式。
1) 下载研究Webogram的源码,基本都是JavaScript.
2) 运行 使用 console.logs 修改的 Webogram 的本地副本,以清楚地逐步向您展示 "a working telegram client" 和电报服务器之间发生的交互。这将使您 work-flow 了解 Telegram 客户端和 Telegram 的真正工作原理。
3) 使用您最熟悉的任何开发语言来构建您自己的协议解析器实现,用于将二进制流转换为 TL 类型和 vice-versa
编码这一步其实还是蛮好玩的。我刚刚在 Elixir
中构建了一个简单的协议解析器4) 这是来自 Webogram 修改副本的示例日志。
显示成功生成 Auth_key
后要执行的步骤您甚至可以看到它必须在哪里生成新的 Auth_key in-flight,因为它将经过验证的您切换到正确的数据中心,重新创建他的会话,新的 server_salts 等(未显示)
此致。
ID time info log
121 12:26:35.318 new Auth Auth successfull! dc= 2 mtproto.js:479:15
127 12:26:35.325 CALL =>> API call help.getNearestDc Object { } Object { dcID: 2, createNetworker: true } mtproto.js:749:4
128 12:26:35.327 enc-START [invokeWithLayer] 45 mtproto.js:753:7
168 12:26:35.551 SEND POST XHR http://149.154.167.51/apiw1 [HTTP/1.1 200 OK 708ms]
189 12:26:36.522 msg-r <<=m [msg_container] Object { _: "msg_container", messages: Array[2] } mtproto.js:1452:5
190 12:26:36.523 msg-r <<=m [message] Object { _: "message", msg_id: "6242200678614200321", seqno: 1, bytes: 28, body: Object } mtproto.js:1452:5
191 12:26:36.525 msg-r <<=m [new_session_created] Object { _: "new_session_created", first_msg_id: "6242200671500883244", unique_id: "645797764649391412", server_salt: "17212767594123551779" } mtproto.js:1452:5
192 12:26:36.526 msg-r <<=m [message] Object { _: "message", msg_id: "6242200678630513665", seqno: 3, bytes: 28, body: Object } mtproto.js:1452:5
193 12:26:36.528 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200671500883244", result: Object } mtproto.js:1452:5
257 12:26:39.239 new Auth Auth successfull! dc= 4 mtproto.js:479:15
270 12:26:59.606 CALL =>> API call auth.sendCode Object { phone_number: "2348022002298", sms_type: 5, api_id: 38665, api_hash: "880c7847a517fc455d7d54731e90ad4e", lang_code: "en-US" } Object { dcID: 2, createNetworker: true } mtproto.js:749:4
321 12:27:00.048 SEND POST XHR http://149.154.167.51/apiw1 [HTTP/1.1 200 OK 422ms]
328 12:27:00.981 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200779464550396", result: Object } mtproto.js:1452:5
331 12:27:00.986 CALL =>> API call auth.sendCode Object { phone_number: "2348022002298", sms_type: 5, api_id: 38665, api_hash: "880c7847a517fc455d7d54731e90ad4e", lang_code: "en-US" } Object { dcID: "4", createNetworker: true, resultType: "auth.SentCode", messageID: "6242200779464550396" } mtproto.js:749:4
332 12:27:00.987 enc-START [invokeWithLayer] 45 mtproto.js:753:7
377 12:27:01.288 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 321ms]
398 12:27:02.170 msg-r <<=m [msg_container] Object { _: "msg_container", messages: Array[2] } mtproto.js:1452:5
399 12:27:02.171 msg-r <<=m [message] Object { _: "message", msg_id: "6242200787684582401", seqno: 1, bytes: 28, body: Object } mtproto.js:1452:5
400 12:27:02.172 msg-r <<=m [new_session_created] Object { _: "new_session_created", first_msg_id: "6242200784556418516", unique_id: "13396961033572361155", server_salt: "7076519506215495914" } mtproto.js:1452:5
401 12:27:02.173 msg-r <<=m [message] Object { _: "message", msg_id: "6242200787775901697", seqno: 3, bytes: 48, body: Object } mtproto.js:1452:5
402 12:27:02.174 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200784556418516", result: Object } mtproto.js:1452:5
407 12:27:02.344 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 25154ms]
414 12:27:03.068 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200779464550396" } mtproto.js:1452:5
420 12:27:15.639 CALL =>> API call auth.sendSms Object { phone_number: "2348022002298", phone_code_hash: "696b5befd8e809de81" } Object { dcID: "4", createNetworker: true, resultType: "auth.SentCode", messageID: "6242200784556418516" } mtproto.js:749:4
468 12:27:15.924 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 457ms]
475 12:27:17.154 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200848242727644", result: true } mtproto.js:1452:5
482 12:27:27.511 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200848242727644" } mtproto.js:1452:5
505 12:27:31.003 SEND POST XHR http://149.154.167.51/apiw1 [HTTP/1.1 200 OK 25161ms]
511 12:27:40.133 CALL =>> API call auth.signIn Object { phone_number: "2348022002298", phone_code_hash: "696b5befd8e809de81", phone_code: "26914" } Object { dcID: "4", createNetworker: true, resultType: "Bool", messageID: "6242200848242727644" } mtproto.js:749:4
560 12:27:40.454 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 756ms]
567 12:27:41.223 msg-r <<=m [msg_container] Object { _: "msg_container", messages: Array[2] } mtproto.js:1452:5
568 12:27:41.224 msg-r <<=m [message] Object { _: "message", msg_id: "6242200956100910081", seqno: 7, bytes: 80, body: Object } mtproto.js:1452:5
569 12:27:41.225 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200954555850604", result: Object } mtproto.js:1452:5
570 12:27:41.226 msg-r <<=m [message] Object { _: "message", msg_id: "6242200956751929345", seqno: 9, bytes: 88, body: Object } mtproto.js:1452:5
571 12:27:41.227 msg-r <<=m [updates] Object { _: "updates", updates: Array[1], users: Array[0], chats: Array[0], date: 1453375666, seq: 2 } mtproto.js:1452:5
579 12:27:41.758 CALL =>> API call updates.getState Object { } Object { noErrorBox: true } mtproto.js:749:4
586 12:27:41.842 CALL =>> API call account.updateStatus Object { offline: false } Object { noErrorBox: true } mtproto.js:749:4
594 12:27:41.850 CALL =>> API call messages.getDialogs Object { offset_date: 0, offset_id: 0, offset_peer: Object, limit: 20 } Object { timeout: 300 } mtproto.js:749:4
655 12:27:42.965 CALL =>> API call messages.getAllStickers Object { hash: "" } Object { } mtproto.js:749:4
696 12:27:43.920 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 908ms]
712 12:27:44.613 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 303ms]
727 12:27:46.488 msg-r <<=m [msg_container] Object { _: "msg_container", messages: Array[3] } mtproto.js:1452:5
728 12:27:46.489 msg-r <<=m [message] Object { _: "message", msg_id: "6242200970862778369", seqno: 11, bytes: 36, body: Object } mtproto.js:1452:5
729 12:27:46.489 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200960159395644", result: Object } mtproto.js:1452:5
730 12:27:46.490 msg-r <<=m [message] Object { _: "message", msg_id: "6242200970891641857", seqno: 13, bytes: 776, body: Object } mtproto.js:1452:5
731 12:27:46.492 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200960356118244", result: Object } mtproto.js:1452:5
732 12:27:46.494 msg-r <<=m [message] Object { _: "message", msg_id: "6242200970897958913", seqno: 15, bytes: 16, body: Object } mtproto.js:1452:5
733 12:27:46.495 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200960337591900", result: true } mtproto.js:1452:5
740 12:27:46.567 msg-r <<=m [msg_container] Object { _: "msg_container", messages: Array[4] } mtproto.js:1452:5
741 12:27:46.568 msg-r <<=m [message] Object { _: "message", msg_id: "6242200970862778369", seqno: 11, bytes: 36, body: Object } mtproto.js:1452:5
742 12:27:46.569 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200960159395644" } mtproto.js:1452:5
743 12:27:46.569 msg-r <<=m [message] Object { _: "message", msg_id: "6242200970891641857", seqno: 13, bytes: 776, body: Object } mtproto.js:1452:5
744 12:27:46.570 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200960356118244" } mtproto.js:1452:5
745 12:27:46.571 msg-r <<=m [message] Object { _: "message", msg_id: "6242200970897958913", seqno: 15, bytes: 16, body: Object } mtproto.js:1452:5
746 12:27:46.572 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200960337591900" } mtproto.js:1452:5
747 12:27:46.573 msg-r <<=m [message] Object { _: "message", msg_id: "6242200973791209473", seqno: 17, bytes: 76, body: Object } mtproto.js:1452:5
748 12:27:46.574 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200964892679524", result: Object } mtproto.js:1452:5
754 12:27:46.584 CALL =>> API call messages.getStickerSet Object { stickerset: Object } Object { } mtproto.js:749:4
811 12:27:47.346 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 539ms]
818 12:27:48.175 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242200981275507620", result: Object } mtproto.js:1452:5
857 12:27:49.351 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 25141ms]
864 12:27:57.219 msg-r <<=m [msgs_ack] Object { _: "msgs_ack", msg_ids: Array[0] } mtproto.js:1452:5
870 12:28:04.673 CALL =>> API call messages.readHistory Object { peer: Object, max_id: 0 } Object { } mtproto.js:749:4
908 12:28:04.860 CALL =>> API call messages.getHistory Object { peer: Object, offset_id: 16, add_offset: 0, limit: 20 } Object { timeout: 300, noErrorBox: true } mtproto.js:749:4
922 12:28:05.713 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 367ms]
929 12:28:06.096 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242201058769372356", result: Object } mtproto.js:1452:5
936 12:28:15.702 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242201058769372356" } mtproto.js:1452:5
977 12:28:16.122 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 25170ms]
983 12:28:26.637 CALL =>> API call account.updateStatus Object { offline: true } Object { noErrorBox: true } mtproto.js:749:4
1016 12:28:26.660 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 302ms]
1023 12:28:27.062 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242201153183272948", result: true } mtproto.js:1452:5
1030 12:28:41.985 msg-r <<=m [rpc_result] Object { _: "rpc_result", req_msg_id: "6242201153183272948" } mtproto.js:1452:5
1071 12:28:42.421 SEND POST XHR http://149.154.167.91/apiw1 [HTTP/1.1 200 OK 25165ms]
我写了一个PHP的mtproto实现,到目前为止我已经设法实现了TLserialization/deserialization、tcpabridged/intermediate/full连接、http/https连接。
我已经为所有 mtproto 方法实现了 OOP 包装器,一个基于 Python/wolfram alpha/php、HTML/Markdown 解析并支持提及的素数生成模块,bot API 文件id 支持,使用回调或 getupdates 更新处理,bot API <-> MTProto 对象转换,upload/download 包装器,bots/users 的登录包装器(支持 2FA),简单的错误处理,内部对等管理(您可以提供一个简单的机器人 API 聊天 ID、用户名或 tg-cli 格式的对等 ID 以发送消息或调用其他 mtproto 方法)我目前正在开发一个不错的 Lua 包装器允许使用 td-cli/tg-cli 机器人 w/ MadelineProto。
我还编写了一个 class 来为所有 mtproto methods/constructors/types 生成文档(可在 https://daniil.it/MadelineProto/API_docs 获得)。 MadelineProto 可以序列化为一个文件,以允许简单的会话存储。
如果有人感兴趣或想贡献,这里是 link 到 github 存储库:https://github.com/danog/MadelineProto
自 2018 年 2 月起,您可以在您的网站上使用官方 Telegram Login Widget。