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// Protocol132.cpp
// Implements the cProtocol132 class representing the release 1.3.2 protocol (#39)
#include "Globals.h"
#include "Protocol132.h"
#include "cRoot.h"
#include "cServer.h"
#include "cClientHandle.h"
#include "CryptoPP/osrng.h"
#define HANDLE_PACKET_READ(Proc, Type, Var) \
Type Var; \
{ \
if (!m_ReceivedData.Proc(Var)) \
{ \
return PARSE_INCOMPLETE; \
} \
}
typedef unsigned char Byte;
using namespace CryptoPP;
const int MAX_ENC_LEN = 512; // Maximum size of the encrypted message; should be 128, but who knows...
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// cProtocol132:
cProtocol132::cProtocol132(cClientHandle * a_Client) :
super(a_Client),
m_IsEncrypted(false)
{
}
void cProtocol132::DataReceived(const char * a_Data, int a_Size)
{
if (m_IsEncrypted)
{
byte Decrypted[512];
while (a_Size > 0)
{
int NumBytes = (a_Size > sizeof(Decrypted)) ? sizeof(Decrypted) : a_Size;
m_Decryptor.ProcessData(Decrypted, (byte *)a_Data, NumBytes);
super::DataReceived((const char *)Decrypted, NumBytes);
a_Size -= NumBytes;
a_Data += NumBytes;
}
}
else
{
super::DataReceived(a_Data, a_Size);
}
}
int cProtocol132::ParsePacket(unsigned char a_PacketType)
{
switch (a_PacketType)
{
default: return super::ParsePacket(a_PacketType); // off-load previously known packets into cProtocol125
case 0xcd: return ParseClientStatuses();
case 0xfc: return ParseEncryptionKeyResponse();
}
}
int cProtocol132::ParseHandshake(void)
{
HANDLE_PACKET_READ(ReadByte, Byte, ProtocolVersion);
HANDLE_PACKET_READ(ReadBEUTF16String16, AString, Username);
HANDLE_PACKET_READ(ReadBEUTF16String16, AString, ServerHost);
HANDLE_PACKET_READ(ReadBEInt, int, ServerPort);
m_Username = Username;
AString key;
CryptoPP::StringSink sink(key); // GCC won't allow inline instantiation in the following line, damned temporary refs
cRoot::Get()->GetServer()->GetPublicKey().Save(sink);
// Send a 0xFD Encryption Key Request http://wiki.vg/Protocol#Encryption_Key_Request_.280xFD.29
WriteByte((char)0xfd);
WriteString("MCServer");
WriteShort((short)key.size());
SendData(key.data(), key.size());
WriteShort(4);
WriteInt((int)this); // Using 'this' as the cryptographic nonce, so that we don't have to generate one each time :)
return PARSE_OK;
}
int cProtocol132::ParseLogin(void)
{
// Login packet not used in 1.3.2
return PARSE_ERROR;
}
int cProtocol132::ParseClientStatuses(void)
{
HANDLE_PACKET_READ(ReadByte, byte, Status);
// DEBUG:
// Kick the client, we don't have all the packets yet and sending wrong packets makes the client freeze
// m_Client->Kick("I don't speak your language (yet)");
// TODO:
// m_Client->HandleLogin(39, m_Username);
return PARSE_OK;
}
int cProtocol132::ParseEncryptionKeyResponse(void)
{
HANDLE_PACKET_READ(ReadBEShort, short, EncKeyLength);
AString EncKey;
if (!m_ReceivedData.ReadString(EncKey, EncKeyLength))
{
return PARSE_INCOMPLETE;
}
HANDLE_PACKET_READ(ReadBEShort, short, EncNonceLength);
AString EncNonce;
if (!m_ReceivedData.ReadString(EncNonce, EncNonceLength))
{
return PARSE_INCOMPLETE;
}
if ((EncKeyLength > MAX_ENC_LEN) || (EncNonceLength > MAX_ENC_LEN))
{
LOGD("Too long encryption");
m_Client->Kick("Hacked client");
return PARSE_OK;
}
HandleEncryptionKeyResponse(EncKey, EncNonce);
return PARSE_OK;
}
void cProtocol132::SendData(const char * a_Data, int a_Size)
{
if (m_IsEncrypted)
{
byte Encrypted[1024]; // Larger buffer, we may be sending lots of data (chunks)
while (a_Size > 0)
{
int NumBytes = (a_Size > sizeof(Encrypted)) ? sizeof(Encrypted) : a_Size;
m_Encryptor.ProcessData(Encrypted, (byte *)a_Data, NumBytes);
super::SendData((const char *)Encrypted, NumBytes);
a_Size -= NumBytes;
a_Data += NumBytes;
}
}
else
{
super::SendData(a_Data, a_Size);
}
}
void cProtocol132::HandleEncryptionKeyResponse(const AString & a_EncKey, const AString & a_EncNonce)
{
// Decrypt EncNonce using privkey
RSAES<PKCS1v15>::Decryptor rsaDecryptor(cRoot::Get()->GetServer()->GetPrivateKey());
AutoSeededRandomPool rng;
byte DecryptedNonce[MAX_ENC_LEN];
DecodingResult res = rsaDecryptor.Decrypt(rng, (const byte *)a_EncNonce.data(), a_EncNonce.size(), DecryptedNonce);
if (!res.isValidCoding || (res.messageLength != 4))
{
LOGD("Bad nonce length");
m_Client->Kick("Hacked client");
return;
}
if (ntohl(*((int *)DecryptedNonce)) != (unsigned)this)
{
LOGD("Bad nonce value");
m_Client->Kick("Hacked client");
return;
}
// Decrypt the symmetric encryption key using privkey:
byte DecryptedKey[MAX_ENC_LEN];
res = rsaDecryptor.Decrypt(rng, (const byte *)a_EncKey.data(), a_EncKey.size(), DecryptedKey);
if (!res.isValidCoding || (res.messageLength != 16))
{
LOGD("Bad key length");
m_Client->Kick("Hacked client");
return;
}
// Send encryption key response:
WriteByte((char)0xfc);
WriteShort(0);
WriteShort(0);
StartEncryption(DecryptedKey);
return;
}
void cProtocol132::StartEncryption(const byte * a_Key)
{
m_Encryptor.SetKey(a_Key, 16, MakeParameters(Name::IV(), ConstByteArrayParameter(a_Key, 16))(Name::FeedbackSize(), 1));
m_Decryptor.SetKey(a_Key, 16, MakeParameters(Name::IV(), ConstByteArrayParameter(a_Key, 16))(Name::FeedbackSize(), 1));
m_IsEncrypted = true;
}
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