Mod protocol

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=Under construction =
+
= Under construction =
 
THIS IS NOT FINAL.. feel free to edit.  
 
THIS IS NOT FINAL.. feel free to edit.  
  
 
== Introduction ==
 
== Introduction ==
  
 +
The Modprot is needed for more clean protocol extensions by eMule modders....
  
Modprot is needed for more clean protocol extensions by eMule modders....
+
The main idea is to set a bit in CT_EMULE_MISCOPTIONS2 in the initial hello packet. If that bit is set and received by an eMule mod that is capable of processing extensions, then that mod will send the options it is capable of in the response and the first client will also send back the protocol extensions it is capable of.
  
The main idea is to set a bit in CT_EMULE_MISCOPTIONS2 in the initial hello. If that bit is set and received by a eMule mod that is capable of processing extensions, then that mod will send the options it is capable of in the response and the first client will also send back the protocol extensions it is capable of.
+
'''Important:'''
  
Important:
+
Clients that are not capable of processing the mod protocol (like official eMule/aMule)  will not set the mod bit in CT_EMULE_MISCOPTIONS2 and will never receive extended protocol information.
 
+
Clients that are not capable of processing the mod protocol (like official eMule/amule)  will not set the mod bit in CT_EMULE_MISCOPTIONS2 and will never receive extended protocol information.
+
  
 
== Documentation ==
 
== Documentation ==
All mod communication is to be done over the OP_MODPROT/OP_MODPACKEDPROT,
+
 
When a hello(answer) with a set mod bit is received ConnectionEstablished is to be delayed, and instead the mod info packet with the opcode OP_MODINFOPACKET is ti be sent,
+
All mod communication is to be done over the OP_MODPROT/OP_MODPACKEDPROT.
ConnectionEstablished is to be triggered when the mod info packet is received.
+
When a hello(answer) with a set mod bit is received the ConnectionEstablished has to be delayed. Instead of that the mod info packet with the opcode OP_MODINFOPACKET is to be sent.
 +
ConnectionEstablished will be triggered when the mod info packet is received.
 
<pre>
 
<pre>
 
A              B
 
A              B
Hello  --->    MB Set (see ModBit is set)
+
Hello  --->    MB Set (see if ModBit is set)
 
MB Set  <---    Hello Answer
 
MB Set  <---    Hello Answer
 
ConEst  <---    MInfo (Mod Info)
 
ConEst  <---    MInfo (Mod Info)
 
MInfo  --->    ConEst (call ConnectionEstablished)
 
MInfo  --->    ConEst (call ConnectionEstablished)
 
</pre>
 
</pre>
The mod info packet have to contain eEmuleTags that announces supported features:
+
The mod info packet has to contain eMuleTags that announce the supported features. The packet is made up this way:
 
<pre>
 
<pre>
 
<uint 32> tag count
 
<uint 32> tag count
Line 32: Line 32:
 
<emule tag n>
 
<emule tag n>
 
</pre>
 
</pre>
Only mod features are allowed to use that what was announces by both sides,
+
It's only allowed to use mod features it their capability was announced by both sides.
after the capability exchange all reminding opcodes > 0x01 (0x01 is mod info packet) are allowed to be used by clients in any way they want.  
+
After the capability exchange via OP_MODINFOPACKET all remaining opcodes are allowed to be used by clients in any way they want.  
 
All further communication is not part of this specification.
 
All further communication is not part of this specification.
  
 
== Protocol ==
 
== Protocol ==
  
 +
=== Sending Hello(answer) packets ===
  
=== Hello ===
+
Setting the modbit in CT_EMULE_MISCOPTIONS2
 
+
Set the modbit ot in in CT_EMULE_MISCOPTIONS2
+
  
 
in baseclient.cpp,  void CUpDownClient::SendHelloTypePacket(CSafeMemFile* data)
 
in baseclient.cpp,  void CUpDownClient::SendHelloTypePacket(CSafeMemFile* data)
Line 70: Line 69:
 
</pre>
 
</pre>
  
=== Process hello. ===
+
=== Processing hello(answer) packets ===
 +
 
 +
Read out the modbit from CT_EMULE_MISCOPTIONS2
  
 
baseclient.cpp bool CUpDownClient::ProcessHelloTypePacket(CSafeMemFile* data)
 
baseclient.cpp bool CUpDownClient::ProcessHelloTypePacket(CSafeMemFile* data)
Line 101: Line 102:
 
</pre>
 
</pre>
  
==Send hello answer and modprot info ==
+
== Sending hello answer and modprot info ==
 
+
  
 
Listensocket.cpp bool CClientReqSocket::ProcessPacket(const BYTE* packet, uint32 size, UINT opcode)
 
Listensocket.cpp bool CClientReqSocket::ProcessPacket(const BYTE* packet, uint32 size, UINT opcode)
Line 118: Line 118:
  
  
Example of sendmoinfopacket:
+
Example of SendModInfoPacket:
  
 
<pre>
 
<pre>
Line 156: Line 156:
 
</pre>
 
</pre>
  
=== delay ConnectionEstablished & send mod info packet ===
+
=== Delaying ConnectionEstablished & sending the mod info packet ===
  
 
listensocket.cpp
 
listensocket.cpp
Line 239: Line 239:
 
</pre>
 
</pre>
  
=== process modinfo packet ===
+
=== Processing the modinfo packet ===
  
 
listensocket.cpp
 
listensocket.cpp
Line 338: Line 338:
 
</pre>
 
</pre>
  
=== proces mod data example ===  
+
=== Processing mod data example ===  
 
+
  
 
EMSocket.cpp
 
EMSocket.cpp
Line 454: Line 453:
 
</pre>
 
</pre>
  
=== additional modifications ===  
+
=== Additional modifications ===  
 
+
  
 
Packets.cpp
 
Packets.cpp
Line 485: Line 483:
 
</pre>
 
</pre>
  
== backward compatibility ==
+
== Backward compatibility ==
  
Modstring is still send and replied in hello packet to maintain backward compatibility. However a opcode for modstring will be defined for those who also want to move it to the mod protocol. A mod using the modbit MUST identify itself. (A mod that uses extensions but refuses to identify itslef CAN be considered a bad mod by some antileecher systems)
+
The modstring is still send via hello(answer) packets but '''only''' if the remote client is using a mod and does not support the mod prot extension to maintain backward compatibility. Usage of CT_MOD_VERSION is proposed to move it to the mod protocol. A mod using the modbit MUST identify itself either via CT_MOD_VERSION in the hello(answer) packets or via modstring in the modinfo packet.
 +
'''NOTE:''' a mod that uses extensions but refuses to identify itself will most likely be considered a bad mod by some antileecher systems
  
== OPCODES==
+
The proposed check to use would be like
 +
<pre>
 +
void CUpDownClient::SendHelloTypePacket(CSafeMemFile* data)
 +
{
 +
...
 +
...
 +
uint32 tagcount = 6;
 +
 
 +
if( theApp.clientlist->GetBuddy() && theApp.IsFirewalled() )
 +
tagcount += 2;
 +
 
 +
//>>> MODPROT::Send Modstring to old mods only
 +
const bool bSendModString = !SupportsModProt() && (!m_strModVersion.IsEmpty() || !m_pszUsername);
 +
if(bSendModString)
 +
++tagcount;
 +
//<<< MODPROT::Send Modstring to old mods only
 +
 
 +
data->WriteUInt32(tagcount);
 +
...
 +
...
 +
tagMuleVersion.WriteTagToFile(data);
 +
 
 +
//>>> MODPROT::Send Modstring to old mods only
 +
if(bSendModString)
 +
{
 +
CTag tagMod(CT_MOD_VERSION, L"My Mod String");
 +
tagMod.WriteTagToFile(data);
 +
}
 +
//<<< MODPROT::Send Modstring to old mods only
 +
 
 +
uint32 dwIP;
 +
uint16 nPort;
 +
...
 +
...
 +
</pre>
 +
and similar for the info packet.
 +
 
 +
 
 +
== OPCODE defines ==
 
<pre>
 
<pre>
 
OP_MODPROT      0x4D
 
OP_MODPROT      0x4D
Line 496: Line 533:
 
</pre>
 
</pre>
  
== TAGS defines ==
+
== TAG defines ==
  
Tags used must be reserved in modprot topic at emule-project.net. Source must be published withing 3 months for claiming a tag.  
+
Tags used must be reserved in modprot topic at http://forum.emule-project.net/
 +
Sources must be published within 3 months after claiming a tag.  
  
 
The range 0x01 - 0x1F is completely reserved.
 
The range 0x01 - 0x1F is completely reserved.
  
Tags in the range from 0x20 - 0x7E are reserved for use full features, objections can be:
+
Tags in the range from 0x20 - 0x7E are reserved for major features, possible objections can be:
#Modder uses too many tags (If you need more than 5 you are doing something wrong probably. Note that also string tags are available that are not regulated)
+
#Modder uses too many tags (if you need more than 5 tags you are most likely doing something wrong. Note that string tags are also available - those are not regulated)
#Utterly useless or unimplementable feature, no other mod will ever reuse it.
+
#Utterly useless or unimplementable feature (no other mod will ever use it)
#Illegal feature
+
#Illegal feature (should be clear)
  
The range 0x7F-FF is open and you can take any free tag you want, only object can be using to many tags (e.g. someone claims to need a range of 0x80 till 0xAF).
+
The range 0x7F-FF is open and you can claim any free tag you want, only objection can be the usage of too many tags (e.g. someone claims to need a range from 0x80 to 0xAF).
  
 
{| style="font-size: 85%; text-align: Left;Border="1";
 
{| style="font-size: 85%; text-align: Left;Border="1";
Line 519: Line 557:
 
|MISC_PROTOCOL_EXTENSIONS
 
|MISC_PROTOCOL_EXTENSIONS
 
| 'M' 4D  
 
| 'M' 4D  
|(use full mod extensions like [[NatT_protocol|NatT]], NeoXS, ICS, SCT, etc..)
+
| used for full mod extensions like ICS, etc..
 +
| basic modprot
 +
|-
 +
|MISC_PROTOCOL_EXTENSIONS2
 +
| 'm' 6D
 +
| used for full mod extensions 2, reserved for future use
 +
| basic modprot
 +
|-
 +
|CT_MOD_VERSION
 +
| 'U' 0x55
 +
| Modstring
 +
| basic modprot
 
|-
 
|-
 
|KAD_EMULE_BUDDYID
 
|KAD_EMULE_BUDDYID
 
| '@' 40  
 
| '@' 40  
|(for NatT by david xanatos)
+
| [[NatT_protocol|NatT]]
 +
| David Xanatos
 
|-
 
|-
 
|XS_EMULE_BUDDYIP
 
|XS_EMULE_BUDDYIP
 
| 'B' 42  
 
| 'B' 42  
|(for NatT by david xanatos)
+
| [[NatT_protocol|NatT]]
 +
| David Xanatos
 
|-
 
|-
 
|XS_EMULE_BUDDYUDP
 
|XS_EMULE_BUDDYUDP
 
| 'b' 62  
 
| 'b' 62  
|(for NatT by david xanatos)
+
| [[NatT_protocol|NatT]]
|-
+
| David Xanatos
|CT_MOD_VERSION
+
| 'U' 0x55
+
| Modstring. Modstring MUST be sent either in hello OR Modprotocol (note that sending it in mod protocol is not backward compatible)
+
 
|-
 
|-
 
|NEO_PROTOCOL_EXTENSIONS
 
|NEO_PROTOCOL_EXTENSIONS
 
|'N' 4E  
 
|'N' 4E  
|(for future features by david xanatos)
+
| etc.
 +
| David Xanatos
 
|-
 
|-
 
|NEO_PROTOCOL_EXTENSIONS2
 
|NEO_PROTOCOL_EXTENSIONS2
 
|'n' 6E  
 
|'n' 6E  
|(for future features by david xanatos)
+
| reserved for future Neo features
 +
| David Xanatos
 
|-
 
|-
 
|}
 
|}
Line 549: Line 599:
  
 
* MISC_PROTOCOL_EXTENSIONS:
 
* MISC_PROTOCOL_EXTENSIONS:
<pre>
+
 
 
   [bit 1]  // Unsolicited Part Status (idea from netfinity, allows our client ro recieve filestatus at any time)
 
   [bit 1]  // Unsolicited Part Status (idea from netfinity, allows our client ro recieve filestatus at any time)
 
   [bit 2]  // LowID UDP Ping Support (notifyes a fix form xman1 that  allow the remote low ID to use udp reasks)
 
   [bit 2]  // LowID UDP Ping Support (notifyes a fix form xman1 that  allow the remote low ID to use udp reasks)
   [bit 3]  // ICSv1 Regular Version
+
   [bit 3]  // [[Mod_Multi_Packet#ICS|ICSv2]] New Official Version
   [bit 4]  // SF comments v2
+
   [bit 4]  // UDP Mod File Status*
</pre>
+
  [bit 5]  // [[NatT_protocol|NATT]] - [NatTraversal], [[NatT_protocol#XS Callback|XSB]] - [XSBuddy], [[NatT_protocol#Port Reporting|RPT]] - [ReuseTCPPort]
 +
  [bit 6]  // [[NatT_protocol#Neo XS|NXS]] - [NeoXS]
 +
  [bit 7]  // [[CommentsV2|SF comments v2]]
 +
  [bit 8]  // [[Mod_Multi_Packet#SCT|SCT]]
 +
  [bit 9]  // [[L2HAC|L2HAC]]
  
* NEO_PROTOCOL_EXTENSIONS:
+
 
<pre>
+
<nowiki>*</nowiki> The UDP Mod File Status bit is not only used for ICS but used in general. It also tells whether Mod Multi Packet with extended mod status should be sent over UDP or not.
  [bit 1]  // NXS - [NeoXS]
+
  [bit 2]  // XSB - [XSBuddy]
+
  [bit 3]  // NATT - [NatTraversal]
+
  [bit 4]  // RTP - [ReuseTCPPort]
+
  [bit 5]  // Neo SCT
+
  [bit 6]  // UDP Mod File Status
+
  [bit 7]  // ICSv2 Neo Version
+
  [bit 8]  // Real Part Status
+
</pre>
+
  
 
== See also ==  
 
== See also ==  
  
 
References to emule protocol...
 
References to emule protocol...
 
 
[[category:Mod_protocol_extensions]]
 
[[category:Mod_protocol_extensions]]

Latest revision as of 12:54, 18 November 2010

Contents

Under construction

THIS IS NOT FINAL.. feel free to edit.

Introduction

The Modprot is needed for more clean protocol extensions by eMule modders....

The main idea is to set a bit in CT_EMULE_MISCOPTIONS2 in the initial hello packet. If that bit is set and received by an eMule mod that is capable of processing extensions, then that mod will send the options it is capable of in the response and the first client will also send back the protocol extensions it is capable of.

Important:

Clients that are not capable of processing the mod protocol (like official eMule/aMule) will not set the mod bit in CT_EMULE_MISCOPTIONS2 and will never receive extended protocol information.

Documentation

All mod communication is to be done over the OP_MODPROT/OP_MODPACKEDPROT. When a hello(answer) with a set mod bit is received the ConnectionEstablished has to be delayed. Instead of that the mod info packet with the opcode OP_MODINFOPACKET is to be sent. ConnectionEstablished will be triggered when the mod info packet is received.

A               B
Hello   --->    MB Set (see if ModBit is set)
MB Set  <---    Hello Answer
ConEst  <---    MInfo (Mod Info)
MInfo   --->    ConEst (call ConnectionEstablished)

The mod info packet has to contain eMuleTags that announce the supported features. The packet is made up this way:

<uint 32> tag count
<emule tag 1>
<emule tag 2>
...
<emule tag n>

It's only allowed to use mod features it their capability was announced by both sides. After the capability exchange via OP_MODINFOPACKET all remaining opcodes are allowed to be used by clients in any way they want. All further communication is not part of this specification.

Protocol

Sending Hello(answer) packets

Setting the modbit in CT_EMULE_MISCOPTIONS2

in baseclient.cpp, void CUpDownClient::SendHelloTypePacket(CSafeMemFile* data)

	// eMule Misc. Options #2
	const UINT uKadVersion			= KADEMLIA_VERSION;
	const UINT uSupportLargeFiles	= 1;
	const UINT uExtMultiPacket		= 1;
	// Set the Mod Bit
	const UINT uModProt				= 1; // mod bit // NEO: NMP - [NeoModProt] <-- Xanatos --
	const UINT uSupportsCryptLayer	= thePrefs.IsClientCryptLayerSupported() ? 1 : 0;
	const UINT uRequestsCryptLayer	= thePrefs.IsClientCryptLayerRequested() ? 1 : 0;
	const UINT uRequiresCryptLayer	= thePrefs.IsClientCryptLayerRequired() ? 1 : 0;
	const UINT uSupportsSourceEx2	= 1;

	CTag tagMisOptions2(CT_EMULE_MISCOPTIONS2, 
//				(RESERVED				     )
				(uSupportsSourceEx2		<< 10) |
				(uRequiresCryptLayer	<<  9) |
				(uRequestsCryptLayer	<<  8) |
				(uSupportsCryptLayer	<<  7) |
				(uModProt				<<  6) |
				(uExtMultiPacket		<<  5) |
				(uSupportLargeFiles		<<  4) |
				(uKadVersion			<<  0) 
				);
	tagMisOptions2.WriteTagToFile(data);

Processing hello(answer) packets

Read out the modbit from CT_EMULE_MISCOPTIONS2

baseclient.cpp bool CUpDownClient::ProcessHelloTypePacket(CSafeMemFile* data)

	case CT_EMULE_MISCOPTIONS2:
				//	21 Reserved
				//	 1 Supports SourceExachnge2 Packets, ignores SX1 Packet Version
				//	 1 Requires CryptLayer
				//	 1 Requests CryptLayer
				//	 1 Supports CryptLayer
				//	 1 Reserved (ModBit)
				//   1 Ext Multipacket (Hash+Size instead of Hash)
				//   1 Large Files (includes support for 64bit tags)
				//   4 Kad Version
				if (temptag.IsInt()) {
					m_fSupportsSourceEx2	= (temptag.GetInt() >>  10) & 0x01;
					m_fRequiresCryptLayer	= (temptag.GetInt() >>  9) & 0x01;
					m_fRequestsCryptLayer	= (temptag.GetInt() >>  8) & 0x01;
					m_fSupportsCryptLayer	= (temptag.GetInt() >>  7) & 0x01;
					// read the mod bit
					m_fSupportsModProt		= (temptag.GetInt() >>  6) & 0x01; // NEO: NMP - [NeoModProt] <-- Xanatos --
					m_fExtMultiPacket		= (temptag.GetInt() >>  5) & 0x01;
					m_fSupportsLargeFiles   = (temptag.GetInt() >>  4) & 0x01;
					m_byKadVersion			= (uint8)((temptag.GetInt() >>  0) & 0x0f);
					dwEmuleTags |= 8;
					if (bDbgInfo)
						m_strHelloInfo.AppendFormat(_T("\n  KadVersion=%u, LargeFiles=%u ExtMultiPacket=%u CryptLayerSupport=%u CryptLayerRequest=%u CryptLayerRequires=%u m_fSupportsSourceEx2=%u"), m_byKadVersion, m_fSupportsLargeFiles, m_fExtMultiPacket, m_fSupportsCryptLayer, m_fRequestsCryptLayer, m_fRequiresCryptLayer, m_fSupportsSourceEx2);
					m_fRequestsCryptLayer &= m_fSupportsCryptLayer;
					m_fRequiresCryptLayer &= m_fRequestsCryptLayer;

Sending hello answer and modprot info

Listensocket.cpp bool CClientReqSocket::ProcessPacket(const BYTE* packet, uint32 size, UINT opcode)

if (client->GetHashType() == SO_EMULE && !bIsMuleHello)
						client->SendMuleInfoPacket(false);

					client->SendHelloAnswer();

					if (client)
					{
						// NEO: NMP - [NeoModProt] -- Xanatos -->
						if(client->GetNeoModProtVersion())
							client->SendModInfoPacket();


Example of SendModInfoPacket:

void CUpDownClient::SendModInfoPacket(){
	if (socket == NULL){ // first we check if we have a valid socket, actualy we was called form the socket so this check is rather unnesesery, but in case
		ASSERT(0);
		return;
	}

	CSafeMemFile data(128);

	// write the amount of emule tags we intent to send
	// !!! this value must be correct !!! 
	uint32 tagcount=2;

	// write the first tag (Nr.1)
	// in this sample its an normal tag with an uint8 ID, its the modstring 0x55 = 'T'
	data.WriteUInt32(tagcount); // nr. of tags
	CTag tagPartStatus(0x55,_T("TestMod"));
	tagPartStatus.WriteNewEd2kTag(&data);

	// write the secund tag (Nr.2)
	// in this sample its an custom named tag with an string as ID
	CTag tagMyMail("Mod:eMail",_T("User@Domain.com"));
	tagMyMail.WriteNewEd2kTag(&data);
	
	// we are done writing tags

	// now we create a packet and put what we have writen in it
	Packet* packet = new Packet(&data,OP_MODPROT);
	packet->opcode = OP_MODINFOPACKET;
	if (thePrefs.GetDebugClientTCPLevel() > 0)
		DebugSend("OP__ModInfoPacket", this);
	theStats.AddUpDataOverheadOther(packet->size);
	socket->SendPacket(packet,true,true); // we send the packet
}

Delaying ConnectionEstablished & sending the mod info packet

listensocket.cpp bool CClientReqSocket::ProcessPacket(const BYTE* packet, uint32 size, UINT opcode)

				case OP_HELLOANSWER:
				{
					theStats.AddDownDataOverheadOther(size);
					client->ProcessHelloAnswer(packet,size);
					if (thePrefs.GetDebugClientTCPLevel() > 0){
						DebugRecv("OP_HelloAnswer", client);
						Debug(_T("  %s\n"), client->DbgGetHelloInfo());
					}

					// NEO: NMP - [NeoModProt] -- Xanatos -->
					if(client->SupportsModProt() == 0)	// check for mod prot
					// we will start the SUI when we recieve the mod info packet
					// NEO: NMP END <-- Xanatos --
					{
						// start secure identification, if
						//  - we have received OP_EMULEINFO and OP_HELLOANSWER (old eMule)
						//	- we have received eMule-OP_HELLOANSWER (new eMule)
						if (client->GetInfoPacketsReceived() == IP_BOTH)
							client->InfoPacketsReceived();
					}

					if (client)
					{
						// NEO: NMP - [NeoModProt] -- Xanatos -->
						if (client->SupportsModProt()) // if this cleint uses mod protocol extensions
							client->SendModInfoPacket(); // we send him the mod info packet with our rxtensions
						else // we *dont* call ConnectionEstablished at this point,
							 // when will call ConnectionEstablished when we recieve the Mod Info frm this cleint
						// NEO: NMP END <-- Xanatos --
						{
							client->ConnectionEstablished();
							theApp.emuledlg->transferwnd->clientlistctrl.RefreshClient(client);
						}
					}
					break;
				}

listensocket.cpp bool CClientReqSocket::ProcessPacket(const BYTE* packet, uint32 size, UINT opcode)

				case OP_HELLO:
				{
					[..................]

					if (client)
					{
						// NEO: NMP - [NeoModProt] -- Xanatos -->
						if(client->SupportsModProt()) // if this cleint uses mod protocol extensions
							client->SendModInfoPacket(); // we send him the mod info packet with our rxtensions
						else // we *dont* call ConnectionEstablished at this point,
							 // when will call ConnectionEstablished when we recieve the Mod Info frm this cleint
						// NEO: NMP END <-- Xanatos --
							client->ConnectionEstablished();
					}

					ASSERT( client );
					if(client)
					{
						// NEO: NMP - [NeoModProt] -- Xanatos -->
						if(client->SupportsModProt() == 0) // check for mod prot
						// we will start the SUI when we recieve the mod info packet
						// NEO: NMP END <-- Xanatos --
						{

							// start secure identification, if
							//	- we have received eMule-OP_HELLO (new eMule)
							if (client->GetInfoPacketsReceived() == IP_BOTH)
								client->InfoPacketsReceived();
						}

						if( client->GetKadPort() )
							Kademlia::CKademlia::Bootstrap(ntohl(client->GetIP()), client->GetKadPort(), (client->GetKadVersion() > 1));
					}
					break;
				}

Processing the modinfo packet

listensocket.cpp

bool CClientReqSocket::ProcessModPacket(const BYTE* packet, uint32 size, UINT opcode, UINT uRawSize)
{
	try
	{
		try
		{
			if (!client)
			{
				theStats.AddDownDataOverheadOther(uRawSize);
				throw GetResString(IDS_ERR_UNKNOWNCLIENTACTION);
			}
			if (thePrefs.m_iDbgHeap >= 2)
				ASSERT_VALID(client);

			switch(opcode)
			{
				case OP_MODINFOPACKET:
				{
					if (thePrefs.GetDebugClientTCPLevel() > 0)
						DebugRecv("OP__ModInfoPacket", client);
					theStats.AddDownDataOverheadOther(uRawSize);

					if(client->GetNeoModProtVersion() == 0)
						throw CString(_T("Recieved Neo Mod Info Packet from a cleint whitch doe snot support this feature!"));

					client->ProcessModInfoPacket(packet,size);

					// Now after we have all informations about the cleint the connection is established
					client->ConnectionEstablished();

					// start secure identification, if
					//  - we have received OP_MODINFOPACKET, (Neo Compatible new eMule mods)
					if (client->GetInfoPacketsReceived() == IP_BOTH)
						client->InfoPacketsReceived();
					break;
				}	

				// NEO: NMPm - [NeoModProtMultiPacket]
				case OP_MODMULTIPACKET: 
				{
...



baseclient.cpp

void CUpDownClient::ProcessModInfoPacket(const uchar* pachPacket, uint32 nSize)
{
	bool bDbgInfo = thePrefs.GetUseDebugDevice();
	CString m_strModInfo;
	CSafeMemFile data(pachPacket, nSize);

	// we read now the amount of tags that the sender put in th epacket
	uint32 tagcount = data.ReadUInt32();
	if (bDbgInfo)
		m_strModInfo.AppendFormat(_T("  Tags=%u"), (UINT)tagcount);
	// now we are going to read all of them
	for (uint32 i = 0; i < tagcount; i++)
	{
		CTag temptag(&data, false);
		switch (temptag.GetNameID()) // here we distinguish only tags with an uint8 ID, all named tags are handled below
		{
			case 0x55:
				if (temptag.IsStr())
					Log(_T("ModString %s", temptag.GetStr()));
				else if (bDbgInfo)
					m_strModInfo.AppendFormat(_T("\n  ***UnkType=%s"), temptag.GetFullInfo());
				break;

			default:

				// now we habdle custom named tags, we use a series of (else)if's and strcmp, note: this is *not* unicide!!!
				if(strcmp(temptag.GetName(),"Mod:Hello") == 0)
				{
					if(temptag.IsStr())
						Log(LOG_SUCCESS,_T("*** Greathings from %s: %s"),GetUserName(),temptag.GetStr());
				}
				else

				if (bDbgInfo)
					m_strModInfo.AppendFormat(_T("\n  ***UnkTag=%s"), temptag.GetFullInfo());
		}
	}

	// some debug output
	if (bDbgInfo && data.GetPosition() < data.GetLength()){
		m_strModInfo.AppendFormat(_T("\n  ***AddData: %u bytes"), data.GetLength() - data.GetPosition());
	}
}

Processing mod data example

EMSocket.cpp void CEMSocket::OnReceive(int nErrorCode)

switch (pendingPacket->prot){
				case OP_EDONKEYPROT:
				case OP_PACKEDPROT:
				case OP_EMULEPROT:
				// NEO: NMP - [NeoModProt] -- Xanatos -->
				// We have to accept also mod packet
				case OP_MODPACKEDPROT:
				case OP_MODPROT:
				// NEO: NMP END <-- Xanatos --
					break;
				default:
					EMTrace("CEMSocket::OnReceive ERROR Wrong header");
					delete pendingPacket;
					pendingPacket = NULL;
					OnError(ERR_WRONGHEADER);
					return;
			}


listensocket.cpp bool CClientReqSocket::PacketReceivedCppEH(Packet* packet)

		// NEO: NMP - [NeoModProt] -- Xanatos -->
		// dispatch mod packets to the right processing functions
		case OP_MODPACKEDPROT:
			if (!packet->UnPackPacket()){
				if (thePrefs.GetVerbose())
					AddDebugLogLine(false, _T("Failed to decompress client Mod TCP packet; %s; %s"), DbgGetClientTCPPacket(packet->prot, packet->opcode, packet->size), DbgGetClientInfo());
				bResult = false;
				break;
			}
		case OP_MODPROT:
			bResult = ProcessModPacket((const BYTE*)packet->pBuffer, packet->size, packet->opcode, uRawSize);
			break;
// NEO: NMP - [NeoModProt] -- Xanatos -->
bool CClientReqSocket::ProcessModPacket(const BYTE* packet, uint32 size, UINT opcode, UINT uRawSize)
{
	try
	{
		try
		{
			// we must have a cleint at this point !always!
			if (!client)
			{
				theStats.AddDownDataOverheadOther(uRawSize);
				throw GetResString(IDS_ERR_UNKNOWNCLIENTACTION);
			}
			if (thePrefs.m_iDbgHeap >= 2)
				ASSERT_VALID(client);

			switch(opcode) // dispatch particular packets
			{
				// for the mod prot v1 (capability exchange) only this one packet is relevant, the mod info packet
				case OP_MODINFOPACKET:
				{
					if (thePrefs.GetDebugClientTCPLevel() > 0)
						DebugRecv("OP__ModInfoPacket", client);
					theStats.AddDownDataOverheadOther(uRawSize);

					if(client->SupportsModProt() == 0) // just pure formality
						throw CString(_T("Recieved Neo Mod Info Packet from a cleint whitch doe snot support this feature!"));

					// Process the packet
					client->ProcessModInfoPacket(packet,size);

					// Now after we have all informations about the cleint the connection is established
					client->ConnectionEstablished();

					// start secure identification, if
					//  - we have received OP_MODINFOPACKET, (Neo Compatible new eMule mods)
					if (client->GetInfoPacketsReceived() == IP_BOTH)
						client->InfoPacketsReceived();
					break;
				}	

				default: // handle unknown packets
					
					theStats.AddDownDataOverheadOther(uRawSize);
					PacketToDebugLogLine(_T("ModProt"), packet, size, opcode);
			}
		}
		catch(CFileException* error)
		{
			error->Delete();
			throw GetResString(IDS_ERR_INVALIDPACKAGE);
		}
		catch(CMemoryException* error)
		{
			error->Delete();
			throw CString(_T("Memory exception"));
		}
	}
	catch(CString error)
	{
		if (thePrefs.GetVerbose() && !error.IsEmpty())
			DebugLogWarning(_T("Error: %s - while processing Mod packet: opcode=%s  size=%u; %s"), error, DbgGetMuleClientTCPOpcode(opcode), size, DbgGetClientInfo());
		// Note: don't disconnect cleints on mod prot errors, the extensions are just addons and if thay fail the client will work anyway
		//if (client)
		//	client->SetDownloadState(DS_ERROR, _T("ProcessModPacket error. ") + error);
		//Disconnect(_T("ProcessModPacket error. ") + error); 
		//return false;
	}
	return true;

// NEO: NMP END <-- Xanatos --

Additional modifications

Packets.cpp void Packet::PackPacket()

	// NEO: NMP - [NeoModProt] -- Xanatos -->
	if( prot == OP_MODPROT )
		prot = OP_MODPACKEDPROT;
	else
	// NEO: NMP END <-- Xanatos --
	if( prot == OP_KADEMLIAHEADER )
		prot = OP_KADEMLIAPACKEDPROT;
	else
		prot = OP_PACKEDPROT;

Packets.cpp bool Packet::UnPackPacket(UINT uMaxDecompressedSize)

		// NEO: NMP - [NeoModProt] -- Xanatos -->
		if( prot == OP_MODPACKEDPROT )
			prot = OP_MODPROT;
		else
		// NEO: NMP END <-- Xanatos --
		if( prot == OP_KADEMLIAPACKEDPROT )
			prot = OP_KADEMLIAHEADER;
		else
			prot =  OP_EMULEPROT;

Backward compatibility

The modstring is still send via hello(answer) packets but only if the remote client is using a mod and does not support the mod prot extension to maintain backward compatibility. Usage of CT_MOD_VERSION is proposed to move it to the mod protocol. A mod using the modbit MUST identify itself either via CT_MOD_VERSION in the hello(answer) packets or via modstring in the modinfo packet. NOTE: a mod that uses extensions but refuses to identify itself will most likely be considered a bad mod by some antileecher systems

The proposed check to use would be like

void CUpDownClient::SendHelloTypePacket(CSafeMemFile* data)
{
...
...
	uint32 tagcount = 6;

	if( theApp.clientlist->GetBuddy() && theApp.IsFirewalled() )
		tagcount += 2;

//>>> MODPROT::Send Modstring to old mods only
	const bool bSendModString = !SupportsModProt() && (!m_strModVersion.IsEmpty() || !m_pszUsername); 
	if(bSendModString)
		++tagcount;
//<<< MODPROT::Send Modstring to old mods only

	data->WriteUInt32(tagcount);
...
...
	tagMuleVersion.WriteTagToFile(data);

//>>> MODPROT::Send Modstring to old mods only
	if(bSendModString)
	{
		CTag tagMod(CT_MOD_VERSION, L"My Mod String");
		tagMod.WriteTagToFile(data);
	}
//<<< MODPROT::Send Modstring to old mods only

	uint32 dwIP;
	uint16 nPort;
...
...

and similar for the info packet.


OPCODE defines

OP_MODPROT       0x4D
OP_MODPACKEDPROT 0x6D
OP_MODINFOPACKET 0x01

TAG defines

Tags used must be reserved in modprot topic at http://forum.emule-project.net/ Sources must be published within 3 months after claiming a tag.

The range 0x01 - 0x1F is completely reserved.

Tags in the range from 0x20 - 0x7E are reserved for major features, possible objections can be:

  1. Modder uses too many tags (if you need more than 5 tags you are most likely doing something wrong. Note that string tags are also available - those are not regulated)
  2. Utterly useless or unimplementable feature (no other mod will ever use it)
  3. Illegal feature (should be clear)

The range 0x7F-FF is open and you can claim any free tag you want, only objection can be the usage of too many tags (e.g. someone claims to need a range from 0x80 to 0xAF).

TAGNAME VALUE Meaning Reserved by / source code
MISC_PROTOCOL_EXTENSIONS 'M' 4D used for full mod extensions like ICS, etc.. basic modprot
MISC_PROTOCOL_EXTENSIONS2 'm' 6D used for full mod extensions 2, reserved for future use basic modprot
CT_MOD_VERSION 'U' 0x55 Modstring basic modprot
KAD_EMULE_BUDDYID '@' 40 NatT David Xanatos
XS_EMULE_BUDDYIP 'B' 42 NatT David Xanatos
XS_EMULE_BUDDYUDP 'b' 62 NatT David Xanatos
NEO_PROTOCOL_EXTENSIONS 'N' 4E etc. David Xanatos
NEO_PROTOCOL_EXTENSIONS2 'n' 6E reserved for future Neo features David Xanatos


  • MISC_PROTOCOL_EXTENSIONS:
  [bit 1]   // Unsolicited Part Status (idea from netfinity, allows our client ro recieve filestatus at any time)
  [bit 2]   // LowID UDP Ping Support (notifyes a fix form xman1 that  allow the remote low ID to use udp reasks)
  [bit 3]   // ICSv2 New Official Version
  [bit 4]   // UDP Mod File Status*
  [bit 5]   // NATT - [NatTraversal], XSB - [XSBuddy], RPT - [ReuseTCPPort]
  [bit 6]   // NXS - [NeoXS]
  [bit 7]   // SF comments v2
  [bit 8]   // SCT
  [bit 9]   // L2HAC


* The UDP Mod File Status bit is not only used for ICS but used in general. It also tells whether Mod Multi Packet with extended mod status should be sent over UDP or not.

See also

References to emule protocol...

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