Esempio n. 1
0
/// Logon Proof command handler
bool AuthSocket::_HandleLogonProof()
{
    DEBUG_LOG("Entering _HandleLogonProof");
    ///- Read the packet
    if (ibuf.GetLength() < sizeof(sAuthLogonProof_C))
        return false;
    sAuthLogonProof_C lp;
    ibuf.Read((char *)&lp, sizeof(sAuthLogonProof_C));

    ///- Check if the client has one of the expected version numbers
    bool valid_version = FindBuildInfo(_build) != NULL;

    /// <ul><li> If the client has no valid version
    /// Ignore if its trial client account
    if(!valid_version && !_isTrial)
    {
        ///- Check if we have the apropriate patch on the disk

        // 24 = len("./patches/65535enGB.mpq")+1
        char tmp[24];
        // No buffer overflow (fixed length of arguments)
        sprintf(tmp, "./patches/%d%s.mpq", _build, _localizationName.c_str());
        // This will be closed at the destruction of the AuthSocket (client disconnection)
        FILE *pFile = fopen(tmp, "rb");

        if(!pFile)
        {
            ByteBuffer pkt;
            pkt << (uint8) AUTH_LOGON_CHALLENGE;
            pkt << (uint8) 0x00;
            pkt << (uint8) WOW_FAIL_VERSION_INVALID;
            DEBUG_LOG("[AuthChallenge] %u is not a valid client version!", _build);
            DEBUG_LOG("[AuthChallenge] Patch %s not found", tmp);
            SendBuf((char const*)pkt.contents(), pkt.size());
            return true;
        }
        else                                                // have patch
        {
            pPatch = pFile;
            XFER_INIT xferh;

            ///- Get the MD5 hash of the patch file (get it from preloaded Patcher cache or calculate it)
            if(PatchesCache.GetHash(tmp, (uint8*)&xferh.md5))
            {
                DEBUG_LOG("\n[AuthChallenge] Found precached patch info for patch %s", tmp);
            }
            else
            {                                               // calculate patch md5
                printf("\n[AuthChallenge] Patch info for %s was not cached.", tmp);
                PatchesCache.LoadPatchMD5(tmp);
                PatchesCache.GetHash(tmp, (uint8*)&xferh.md5);
            }

            ///- Send a packet to the client with the file length and MD5 hash
            uint8 data[2] = { AUTH_LOGON_PROOF, WOW_FAIL_VERSION_UPDATE };
            SendBuf((const char*)data, sizeof(data));

            memcpy(&xferh, "0\x05Patch", 7);
            xferh.cmd = XFER_INITIATE;
            fseek(pPatch, 0, SEEK_END);
            xferh.file_size = ftell(pPatch);

            SendBuf((const char*)&xferh, sizeof(xferh));
            return true;
        }
    }
    /// </ul>

    ///- Continue the SRP6 calculation based on data received from the client
    BigNumber A;

    A.SetBinary(lp.A, 32);

    // SRP safeguard: abort if A==0
    if (A.isZero())
        return false;

    Sha1Hash sha;
    sha.UpdateBigNumbers(&A, &B, NULL);
    sha.Finalize();
    BigNumber u;
    u.SetBinary(sha.GetDigest(), 20);
    BigNumber S = (A * (v.ModExp(u, N))).ModExp(b, N);

    uint8 t[32];
    uint8 t1[16];
    uint8 vK[40];
    memcpy(t, S.AsByteArray(32), 32);
    for (int i = 0; i < 16; ++i)
    {
        t1[i] = t[i * 2];
    }
    sha.Initialize();
    sha.UpdateData(t1, 16);
    sha.Finalize();
    for (int i = 0; i < 20; ++i)
    {
        vK[i * 2] = sha.GetDigest()[i];
    }
    for (int i = 0; i < 16; ++i)
    {
        t1[i] = t[i * 2 + 1];
    }
    sha.Initialize();
    sha.UpdateData(t1, 16);
    sha.Finalize();
    for (int i = 0; i < 20; ++i)
    {
        vK[i * 2 + 1] = sha.GetDigest()[i];
    }
    K.SetBinary(vK, 40);

    uint8 hash[20];

    sha.Initialize();
    sha.UpdateBigNumbers(&N, NULL);
    sha.Finalize();
    memcpy(hash, sha.GetDigest(), 20);
    sha.Initialize();
    sha.UpdateBigNumbers(&g, NULL);
    sha.Finalize();
    for (int i = 0; i < 20; ++i)
    {
        hash[i] ^= sha.GetDigest()[i];
    }
    BigNumber t3;
    t3.SetBinary(hash, 20);

    sha.Initialize();
    sha.UpdateData(_login);
    sha.Finalize();
    uint8 t4[SHA_DIGEST_LENGTH];
    memcpy(t4, sha.GetDigest(), SHA_DIGEST_LENGTH);

    sha.Initialize();
    sha.UpdateBigNumbers(&t3, NULL);
    sha.UpdateData(t4, SHA_DIGEST_LENGTH);
    sha.UpdateBigNumbers(&s, &A, &B, &K, NULL);
    sha.Finalize();
    BigNumber M;
    M.SetBinary(sha.GetDigest(), 20);

    ///- Check if SRP6 results match (password is correct), else send an error
    if (!memcmp(M.AsByteArray(), lp.M1, 20))
    {
        BASIC_LOG("User '%s' successfully authenticated", _login.c_str());

        ///- Update the sessionkey, last_ip, last login time and reset number of failed logins in the account table for this account
        // No SQL injection (escaped user name) and IP address as received by socket
        const char* K_hex = K.AsHexStr();
        loginDatabase.PExecute("UPDATE account SET sessionkey = '%s', last_ip = '%s', last_login = NOW(), locale = '%u', failed_logins = 0 WHERE username = '******'", K_hex, GetRemoteAddress().c_str(), GetLocaleByName(_localizationName), _safelogin.c_str() );
        OPENSSL_free((void*)K_hex);

        ///- Finish SRP6 and send the final result to the client
        sha.Initialize();
        sha.UpdateBigNumbers(&A, &M, &K, NULL);
        sha.Finalize();

        SendProof(sha);

        ///- Set _authed to true!
        _authed = true;
    }
    else
    {
        char data[4]= { AUTH_LOGON_PROOF, WOW_FAIL_UNKNOWN_ACCOUNT, 3, 0};
        SendBuf(data, sizeof(data));
        BASIC_LOG("[AuthChallenge] account %s tried to login with wrong password!",_login.c_str ());

        uint32 MaxWrongPassCount = sConfig.GetIntDefault("WrongPass.MaxCount", 0);
        if(MaxWrongPassCount > 0)
        {
            //Increment number of failed logins by one and if it reaches the limit temporarily ban that account or IP
            loginDatabase.PExecute("UPDATE account SET failed_logins = failed_logins + 1 WHERE username = '******'",_safelogin.c_str());

            if(QueryResult *loginfail = loginDatabase.PQuery("SELECT id, failed_logins FROM account WHERE username = '******'", _safelogin.c_str()))
            {
                Field* fields = loginfail->Fetch();
                uint32 failed_logins = fields[1].GetUInt32();

                if( failed_logins >= MaxWrongPassCount )
                {
                    uint32 WrongPassBanTime = sConfig.GetIntDefault("WrongPass.BanTime", 600);
                    bool WrongPassBanType = sConfig.GetBoolDefault("WrongPass.BanType", false);

                    if(WrongPassBanType)
                    {
                        uint32 acc_id = fields[0].GetUInt32();
                        loginDatabase.PExecute("INSERT INTO account_banned VALUES ('%u',UNIX_TIMESTAMP(),UNIX_TIMESTAMP()+'%u','MaNGOS realmd','Failed login autoban',1)",
                            acc_id, WrongPassBanTime);
                        BASIC_LOG("[AuthChallenge] account %s got banned for '%u' seconds because it failed to authenticate '%u' times",
                            _login.c_str(), WrongPassBanTime, failed_logins);
                    }
                    else
                    {
                        std::string current_ip = GetRemoteAddress();
                        loginDatabase.escape_string(current_ip);
                        loginDatabase.PExecute("INSERT INTO ip_banned VALUES ('%s',UNIX_TIMESTAMP(),UNIX_TIMESTAMP()+'%u','MaNGOS realmd','Failed login autoban')",
                            current_ip.c_str(), WrongPassBanTime);
                        BASIC_LOG("[AuthChallenge] IP %s got banned for '%u' seconds because account %s failed to authenticate '%u' times",
                            current_ip.c_str(), WrongPassBanTime, _login.c_str(), failed_logins);
                    }
                }
                delete loginfail;
            }
        }
    }
    return true;
}
Esempio n. 2
0
/// Logon Challenge command handler
bool AuthSocket::_HandleLogonChallenge()
{
    DEBUG_LOG("Entering _HandleLogonChallenge");
    if (ibuf.GetLength() < sizeof(sAuthLogonChallenge_C))
        return false;

    ///- Read the first 4 bytes (header) to get the length of the remaining of the packet
    std::vector<uint8> buf;
    buf.resize(4);

    ibuf.Read((char *)&buf[0], 4);

    EndianConvert(*((uint16*)(buf[0])));
    uint16 remaining = ((sAuthLogonChallenge_C *)&buf[0])->size;
    DEBUG_LOG("[AuthChallenge] got header, body is %#04x bytes", remaining);

    if ((remaining < sizeof(sAuthLogonChallenge_C) - buf.size()) || (ibuf.GetLength() < remaining))
        return false;

    //No big fear of memory outage (size is int16, i.e. < 65536)
    buf.resize(remaining + buf.size() + 1);
    buf[buf.size() - 1] = 0;
    sAuthLogonChallenge_C *ch = (sAuthLogonChallenge_C*)&buf[0];

    // BigEndian code, nop in little endian case
    // size already converted
    EndianConvert(*((uint32*)(&ch->gamename[0])));
    EndianConvert(ch->build);
    EndianConvert(*((uint32*)(&ch->platform[0])));
    EndianConvert(*((uint32*)(&ch->os[0])));
    EndianConvert(*((uint32*)(&ch->country[0])));
    EndianConvert(ch->timezone_bias);
    EndianConvert(ch->ip);

    ///- Read the remaining of the packet
    ibuf.Read((char *)&buf[4], remaining);
    DEBUG_LOG("[AuthChallenge] got full packet, %#04x bytes", ch->size);
    DEBUG_LOG("[AuthChallenge] name(%d): '%s'", ch->I_len, ch->I);

    ByteBuffer pkt;

    _login = (const char*)ch->I;

    ///- Normalize account name
    //utf8ToUpperOnlyLatin(_login); -- client already send account in expected form

    //Escape the user login to avoid further SQL injection
    //Memory will be freed on AuthSocket object destruction
    _safelogin=_login;
    dbRealmServer.escape_string(_safelogin);

    ///- Check if the client has one of the expected version numbers
    bool valid_version=false;
    int accepted_versions[]=EXPECTED_MANGOS_CLIENT_BUILD;
    for(int i=0;accepted_versions[i];i++)
        if(ch->build==accepted_versions[i])
    {
        valid_version=true;
        break;
    }

    /// <ul><li> if this is a valid version
    if(valid_version)
    {
        pkt << (uint8) AUTH_LOGON_CHALLENGE;
        pkt << (uint8) 0x00;

        ///- Verify that this IP is not in the ip_banned table
        // No SQL injection possible (paste the IP address as passed by the socket)
        dbRealmServer.Execute("DELETE FROM ip_banned WHERE unbandate<=UNIX_TIMESTAMP() AND unbandate<>bandate");

        std::string address = GetRemoteAddress();
        dbRealmServer.escape_string(address);
        QueryResult *result = dbRealmServer.PQuery(  "SELECT * FROM ip_banned WHERE ip = '%s'",address.c_str());
        if(result)
        {
            pkt << (uint8)REALM_AUTH_ACCOUNT_BANNED;
            sLog.outBasic("[AuthChallenge] Banned ip %s tries to login!",GetRemoteAddress().c_str ());
            delete result;
        }
        else
        {
            ///- Get the account details from the account table
            // No SQL injection (escaped user name)

            result = dbRealmServer.PQuery("SELECT sha_pass_hash,id,locked,last_ip,gmlevel FROM account WHERE username = '******'",_safelogin.c_str ());
            if( result )
            {
                ///- If the IP is 'locked', check that the player comes indeed from the correct IP address
                bool locked = false;
                if((*result)[2].GetUInt8() == 1)            // if ip is locked
                {
                    DEBUG_LOG("[AuthChallenge] Account '%s' is locked to IP - '%s'", _login.c_str(), (*result)[3].GetString());
                    DEBUG_LOG("[AuthChallenge] Player address is '%s'", GetRemoteAddress().c_str());
                    if ( strcmp((*result)[3].GetString(),GetRemoteAddress().c_str()) )
                    {
                        DEBUG_LOG("[AuthChallenge] Account IP differs");
                        pkt << (uint8) REALM_AUTH_ACCOUNT_FREEZED;
                        locked=true;
                    }
                    else
                    {
                        DEBUG_LOG("[AuthChallenge] Account IP matches");
                    }
                }
                else
                {
                    DEBUG_LOG("[AuthChallenge] Account '%s' is not locked to ip", _login.c_str());
                }

                if (!locked)
                {
                    //set expired bans to inactive
                    dbRealmServer.Execute("UPDATE account_banned SET active = 0 WHERE unbandate<=UNIX_TIMESTAMP() AND unbandate<>bandate");
                    ///- If the account is banned, reject the logon attempt
                    QueryResult *banresult = dbRealmServer.PQuery("SELECT bandate,unbandate FROM account_banned WHERE id = %u AND active = 1", (*result)[1].GetUInt32());
                    if(banresult)
                    {
                        if((*banresult)[0].GetUInt64() == (*banresult)[1].GetUInt64())
                        {
                            pkt << (uint8) REALM_AUTH_ACCOUNT_BANNED;
                            sLog.outBasic("[AuthChallenge] Banned account %s tries to login!",_login.c_str ());
                        }
                        else
                        {
                            pkt << (uint8) REALM_AUTH_ACCOUNT_FREEZED;
                            sLog.outBasic("[AuthChallenge] Temporarily banned account %s tries to login!",_login.c_str ());
                        }

                        delete banresult;
                    }
                    else
                    {
                        ///- Get the password from the account table, upper it, and make the SRP6 calculation
                        std::string rI = (*result)[0].GetCppString();
                        _SetVSFields(rI);

                        b.SetRand(19 * 8);
                        BigNumber gmod=g.ModExp(b, N);
                        B = ((v * 3) + gmod) % N;

                        ASSERT(gmod.GetNumBytes() <= 32);

                        BigNumber unk3;
                        unk3.SetRand(16*8);

                        ///- Fill the response packet with the result
                        pkt << (uint8)REALM_AUTH_SUCCESS;

                        // B may be calculated < 32B so we force minnimal length to 32B
                        pkt.append(B.AsByteArray(32), 32);   // 32 bytes
                        pkt << (uint8)1;
                        pkt.append(g.AsByteArray(), 1);
                        pkt << (uint8)32;
                        pkt.append(N.AsByteArray(), 32);
                        pkt.append(s.AsByteArray(), s.GetNumBytes());   // 32 bytes
                        pkt.append(unk3.AsByteArray(), 16);
                        pkt << (uint8)0;                    // Added in 1.12.x client branch

                        uint8 secLevel = (*result)[4].GetUInt8();
                        _accountSecurityLevel = secLevel <= SEC_ADMINISTRATOR ? AccountTypes(secLevel) : SEC_ADMINISTRATOR;

                        std::string localeName;
                        localeName.resize(4);
                        for(int i = 0; i <4; ++i)
                            localeName[i] = ch->country[4-i-1];

                        _localization = GetLocaleByName(localeName);

                        sLog.outBasic("[AuthChallenge] account %s is using '%c%c%c%c' locale (%u)", _login.c_str (), ch->country[3],ch->country[2],ch->country[1],ch->country[0], _localization);
                    }
                }
                delete result;
            }
            else                                            //no account
            {
                pkt<< (uint8) REALM_AUTH_NO_MATCH;
            }
        }
    }                                                       //valid version
    else
        ///<li> else
    {
        ///- Check if we have the apropriate patch on the disk
        char tmp[64];
        // No buffer overflow (fixed length of arguments)
        sprintf(tmp,"./patches/%d%c%c%c%c.mpq",ch->build,ch->country[3],
            ch->country[2],ch->country[1],ch->country[0]);
        // This will be closed at the destruction of the AuthSocket (client deconnection)
        FILE *pFile=fopen(tmp,"rb");
        if(!pFile)
        {
            pkt << (uint8) AUTH_LOGON_CHALLENGE;
            pkt << (uint8) 0x00;
            pkt << (uint8) REALM_AUTH_WRONG_BUILD_NUMBER;
            DEBUG_LOG("[AuthChallenge] %u is not a valid client version!", ch->build);
            DEBUG_LOG("[AuthChallenge] Patch %s not found",tmp);
        }else
        {                                                   //have patch
            pPatch=pFile;
            XFER_INIT xferh;

            ///- Get the MD5 hash of the patch file (get it from preloaded Patcher cache or calculate it)
            if(PatchesCache.GetHash(tmp,(uint8*)&xferh.md5))
            {
                DEBUG_LOG("\n[AuthChallenge] Found precached patch info for patch %s",tmp);
            }
            else
            {                                               //calculate patch md5
                printf("\n[AuthChallenge] Patch info for %s was not cached.",tmp);
                PatchesCache.LoadPatchMD5(tmp);
                PatchesCache.GetHash(tmp,(uint8*)&xferh.md5);
            }

            ///- Send a packet to the client with the file length and MD5 hash
            uint8 data[2]={AUTH_LOGON_PROOF,REALM_AUTH_UPDATE_CLIENT};
            SendBuf((const char*)data,sizeof(data));

            memcpy(&xferh,"0\x05Patch",7);
            xferh.cmd=XFER_INITIATE;
            fseek(pPatch,0,SEEK_END);
            xferh.file_size=ftell(pPatch);

            SendBuf((const char*)&xferh,sizeof(xferh));
            return true;
        }
    }
    /// </ul>
    SendBuf((char const*)pkt.contents(), pkt.size());
    return true;
}