OpenFusion/src/CNLoginServer.cpp

#include "CNLoginServer.hpp"
#include "CNShared.hpp"
#include "CNStructs.hpp"
#include "Database.hpp"
#include "PlayerManager.hpp"
#include <regex>
#include "contrib/bcrypt/BCrypt.hpp"

#include "settings.hpp"

std::map<CNSocket*, CNLoginData> CNLoginServer::loginSessions;

CNLoginServer::CNLoginServer(uint16_t p) {
    port = p;
    pHandler = &CNLoginServer::handlePacket;
    init();
}

void CNLoginServer::handlePacket(CNSocket* sock, CNPacketData* data) {
    printPacket(data, CL2LS);

    switch (data->type) {
        case P_CL2LS_REQ_LOGIN: {
            if (data->size != sizeof(sP_CL2LS_REQ_LOGIN))
                return; // ignore the malformed packet

            sP_CL2LS_REQ_LOGIN* login = (sP_CL2LS_REQ_LOGIN*)data->buf;
            //TODO: implement better way of sending credentials
            std::string userLogin((char*)login->szCookie_TEGid);
            std::string userPassword((char*)login->szCookie_authid);

            /*
             * Sometimes the client sends garbage cookie data.
             * Validate it as normal credentials instead of using a length check before falling back.
             */
            if (!CNLoginServer::isLoginDataGood(userLogin, userPassword)) {
                /*
                 * The std::string -> char* -> std::string maneuver should remove any
                 * trailing garbage after the null terminator.
                 */
                userLogin = std::string(U16toU8(login->szID).c_str());
                userPassword = std::string(U16toU8(login->szPassword).c_str());
            }

            bool success = false;
            int errorCode = 0;

            //checking regex
            if (!CNLoginServer::isLoginDataGood(userLogin, userPassword))
            {
                errorCode = (int)LoginError::LOGIN_ERROR;
            }
            else
            {
                std::unique_ptr<Database::Account> findUser = Database::findAccount(userLogin);
                //if account not found, create it
                if (findUser == nullptr)
                {
                    loginSessions[sock] = CNLoginData();
                    loginSessions[sock].userID =  Database::addAccount(userLogin, userPassword);
                    loginSessions[sock].slot = 1;
                    success = true;
                }
                //if user exists, check if password is correct
                else if (CNLoginServer::isPasswordCorrect(findUser->Password, userPassword))
                {
                    //check if account isn't currently in use
                    if (CNLoginServer::isAccountInUse(findUser->AccountID) ||
                        PlayerManager::isAccountInUse(findUser->AccountID))
                    {
                        errorCode = (int)LoginError::ID_ALREADY_IN_USE;
                    }
                    //if not, login success
                    else
                    {
                        loginSessions[sock] = CNLoginData();
                        loginSessions[sock].userID = findUser->AccountID;
                        loginSessions[sock].slot = findUser->Selected;
                        success = true;
                    }
                }
                else
                {
                    errorCode = (int)LoginError::ID_AND_PASSWORD_DO_NOT_MATCH;
                }
            }


            if (success)
            {
                std::vector<Player> characters = Database::getCharacters(loginSessions[sock].userID);
                int charCount = characters.size();

                INITSTRUCT(sP_LS2CL_REP_LOGIN_SUCC, resp);
                // set username in resp packet
                memcpy(resp.szID, login->szID, sizeof(char16_t) * 33);

                resp.iCharCount = charCount;
                resp.iSlotNum = loginSessions[sock].slot;
                resp.iPaymentFlag = 1;
                resp.iOpenBetaFlag = 0;
                resp.uiSvrTime = getTime();

                // send the resp in with original key
                sock->sendPacket((void*)&resp, P_LS2CL_REP_LOGIN_SUCC, sizeof(sP_LS2CL_REP_LOGIN_SUCC));

                // update keys
                sock->setEKey(CNSocketEncryption::createNewKey(resp.uiSvrTime, resp.iCharCount + 1, resp.iSlotNum + 1));
                sock->setFEKey(CNSocketEncryption::createNewKey((uint64_t)(*(uint64_t*)&CNSocketEncryption::defaultKey[0]), login->iClientVerC, 1));

                // now send the characters :)
                std::vector<Player>::iterator it;
                for (it = characters.begin(); it != characters.end(); it++)
                {
                    sP_LS2CL_REP_CHAR_INFO charInfo = sP_LS2CL_REP_CHAR_INFO();

                    charInfo.iSlot = (int8_t)it->slot;
                    charInfo.iLevel = (int16_t)it->level;
                    charInfo.sPC_Style = it->PCStyle;
                    charInfo.sPC_Style2 = it->PCStyle2;

                    // position
                    charInfo.iX = it->x;
                    charInfo.iY = it->y;
                    charInfo.iZ = it->z;

                    //save character in session (for char select)
                    int UID = it->iID;
                    loginSessions[sock].characters[UID] = Player(*it);
                    loginSessions[sock].characters[UID].FEKey = sock->getFEKey();

                    //Equip info
                    for (int i = 0; i < AEQUIP_COUNT; i++) {
                        charInfo.aEquip[i] = it->Equip[i];
                    }

                    // set default to the first character
                    if (it == characters.begin())
                        loginSessions[sock].selectedChar = UID;

                    sock->sendPacket((void*)&charInfo, P_LS2CL_REP_CHAR_INFO, sizeof(sP_LS2CL_REP_CHAR_INFO));
                }
            }
            //Failure
            else {
                INITSTRUCT(sP_LS2CL_REP_LOGIN_FAIL, resp);

                memcpy(resp.szID, login->szID, sizeof(char16_t) * 33);
                resp.iErrorCode = errorCode;

                sock->sendPacket((void*)&resp, P_LS2CL_REP_LOGIN_FAIL, sizeof(sP_LS2CL_REP_LOGIN_FAIL));
            }

            break;
        }
        case P_CL2LS_REP_LIVE_CHECK: {
            // stubbed, the client really doesn't care LOL
            break;
        }
        case P_CL2LS_REQ_CHECK_CHAR_NAME: {
            if (data->size != sizeof(sP_CL2LS_REQ_CHECK_CHAR_NAME))
                return;

            sP_CL2LS_REQ_CHECK_CHAR_NAME* nameCheck = (sP_CL2LS_REQ_CHECK_CHAR_NAME*)data->buf;
            bool success = true;
            int errorcode = 0;

            //check regex
            if (!CNLoginServer::isCharacterNameGood(U16toU8(nameCheck->szFirstName), U16toU8(nameCheck->szLastName))) {
                success = false;
                errorcode = 4;
            } else if (!Database::isNameFree(nameCheck)){ //check if name isn't already occupied
                success = false;
                errorcode = 1;
            }

            if (success){
                INITSTRUCT(sP_LS2CL_REP_CHECK_CHAR_NAME_SUCC, resp);

                DEBUGLOG(
                    std::cout << "P_CL2LS_REQ_CHECK_CHAR_NAME:" << std::endl;
                    std::cout << "\tFirstName: " << U16toU8(nameCheck->szFirstName) << " LastName: " << U16toU8(nameCheck->szLastName) << std::endl;
                )

                memcpy(resp.szFirstName, nameCheck->szFirstName, sizeof(char16_t) * 9);
                memcpy(resp.szLastName, nameCheck->szLastName, sizeof(char16_t) * 17);

                sock->sendPacket((void*)&resp, P_LS2CL_REP_CHECK_CHAR_NAME_SUCC, sizeof(sP_LS2CL_REP_CHECK_CHAR_NAME_SUCC));
            } else {
                INITSTRUCT(sP_LS2CL_REP_CHECK_CHAR_NAME_FAIL, resp);
                resp.iErrorCode = errorcode;
                sock->sendPacket((void*)&resp, P_LS2CL_REP_CHECK_CHAR_NAME_FAIL, sizeof(sP_LS2CL_REP_CHECK_CHAR_NAME_FAIL));
            }
            break;
        }
        case P_CL2LS_REQ_SAVE_CHAR_NAME: {
            if (data->size != sizeof(sP_CL2LS_REQ_SAVE_CHAR_NAME))
                return;

            sP_CL2LS_REQ_SAVE_CHAR_NAME* save = (sP_CL2LS_REQ_SAVE_CHAR_NAME*)data->buf;
            INITSTRUCT(sP_LS2CL_REP_SAVE_CHAR_NAME_SUCC, resp);

            DEBUGLOG(
                std::cout << "P_CL2LS_REQ_SAVE_CHAR_NAME:" << std::endl;
                std::cout << "\tSlot: " << (int)save->iSlotNum << std::endl;
                std::cout << "\tName: " << U16toU8(save->szFirstName) << " " << U16toU8(save->szLastName) << std::endl;
            )

            resp.iSlotNum = save->iSlotNum;
            resp.iGender = save->iGender;
            resp.iPC_UID = Database::createCharacter(save, loginSessions[sock].userID);
            memcpy(resp.szFirstName, save->szFirstName, sizeof(char16_t) * 9);
            memcpy(resp.szLastName, save->szLastName, sizeof(char16_t) * 17);

            sock->sendPacket((void*)&resp, P_LS2CL_REP_SAVE_CHAR_NAME_SUCC, sizeof(sP_LS2CL_REP_SAVE_CHAR_NAME_SUCC));

            Database::updateSelected(loginSessions[sock].userID, save->iSlotNum);
            break;
        }
        case P_CL2LS_REQ_CHAR_CREATE: {
            if (data->size != sizeof(sP_CL2LS_REQ_CHAR_CREATE))
                return;

            sP_CL2LS_REQ_CHAR_CREATE* character = (sP_CL2LS_REQ_CHAR_CREATE*)data->buf;
            Database::finishCharacter(character);

            DEBUGLOG(
                std::cout << "P_CL2LS_REQ_CHAR_CREATE:" << std::endl;
                std::cout << "\tPC_UID: " << character->PCStyle.iPC_UID << std::endl;
                std::cout << "\tNameCheck: " << (int)character->PCStyle.iNameCheck << std::endl;
                std::cout << "\tName: " << U16toU8(character->PCStyle.szFirstName) << " " << U16toU8(character->PCStyle.szLastName) << std::endl;
                std::cout << "\tGender: " << (int)character->PCStyle.iGender << std::endl;
                std::cout << "\tFace: " << (int)character->PCStyle.iFaceStyle << std::endl;
                std::cout << "\tHair: " << (int)character->PCStyle.iHairStyle << std::endl;
                std::cout << "\tHair Color: " << (int)character->PCStyle.iHairColor << std::endl;
                std::cout << "\tSkin Color: " << (int)character->PCStyle.iSkinColor << std::endl;
                std::cout << "\tEye Color: " << (int)character->PCStyle.iEyeColor << std::endl;
                std::cout << "\tHeight: " << (int)character->PCStyle.iHeight << std::endl;
                std::cout << "\tBody: " << (int)character->PCStyle.iBody << std::endl;
                std::cout << "\tClass: " << (int)character->PCStyle.iClass << std::endl;
                std::cout << "\tiEquipUBID: " << (int)character->sOn_Item.iEquipUBID << std::endl;
                std::cout << "\tiEquipLBID: " << (int)character->sOn_Item.iEquipLBID << std::endl;
                std::cout << "\tiEquipFootID: " << (int)character->sOn_Item.iEquipFootID << std::endl;
                )

            Player player = Database::getPlayer(character->PCStyle.iPC_UID);
            int64_t UID = player.iID;

            INITSTRUCT(sP_LS2CL_REP_CHAR_CREATE_SUCC, resp);
            resp.sPC_Style = player.PCStyle;
            resp.sPC_Style2 = player.PCStyle2;
            resp.iLevel = player.level;
            resp.sOn_Item = character->sOn_Item;

            //save player in session
            loginSessions[sock].characters[UID] = Player(player);
            loginSessions[sock].characters[UID].FEKey = sock->getFEKey();

            sock->sendPacket((void*)&resp, P_LS2CL_REP_CHAR_CREATE_SUCC, sizeof(sP_LS2CL_REP_CHAR_CREATE_SUCC));
            Database::updateSelected(loginSessions[sock].userID, player.slot);
            break;
        }
        case P_CL2LS_REQ_CHAR_DELETE: {
            if (data->size != sizeof(sP_CL2LS_REQ_CHAR_DELETE))
                return;

            sP_CL2LS_REQ_CHAR_DELETE* del = (sP_CL2LS_REQ_CHAR_DELETE*)data->buf;
            int operationResult = Database::deleteCharacter(del->iPC_UID, loginSessions[sock].userID);

            INITSTRUCT(sP_LS2CL_REP_CHAR_DELETE_SUCC, resp);
            resp.iSlotNum = operationResult;
            sock->sendPacket((void*)&resp, P_LS2CL_REP_CHAR_DELETE_SUCC, sizeof(sP_LS2CL_REP_CHAR_DELETE_SUCC));

            break;
        }
        case P_CL2LS_REQ_CHAR_SELECT: {
            if (data->size != sizeof(sP_CL2LS_REQ_CHAR_SELECT))
                return;

            // character selected
            sP_CL2LS_REQ_CHAR_SELECT* chararacter = (sP_CL2LS_REQ_CHAR_SELECT*)data->buf;
            INITSTRUCT(sP_LS2CL_REP_CHAR_SELECT_SUCC, resp);

            DEBUGLOG(
                std::cout << "P_CL2LS_REQ_CHAR_SELECT:" << std::endl;
                std::cout << "\tPC_UID: " << chararacter->iPC_UID << std::endl;
            )
            loginSessions[sock].selectedChar = chararacter->iPC_UID;
            Database::updateSelected(loginSessions[sock].userID, loginSessions[sock].characters[chararacter->iPC_UID].slot);
            sock->sendPacket((void*)&resp, P_LS2CL_REP_CHAR_SELECT_SUCC, sizeof(sP_LS2CL_REP_CHAR_SELECT_SUCC));
            break;
        }
        case P_CL2LS_REQ_SHARD_SELECT: {
            if (data->size != sizeof(sP_CL2LS_REQ_SHARD_SELECT))
                return;

            // tell client to connect to the shard server
            sP_CL2LS_REQ_SHARD_SELECT* shard = (sP_CL2LS_REQ_SHARD_SELECT*)data->buf;
            INITSTRUCT(sP_LS2CL_REP_SHARD_SELECT_SUCC, resp);

            DEBUGLOG(
                std::cout << "P_CL2LS_REQ_SHARD_SELECT:" << std::endl;
                std::cout << "\tShard: " << (int)shard->ShardNum << std::endl;
            )

            const char* SHARD_IP = settings::SHARDSERVERIP.c_str();
            resp.iEnterSerialKey = rand();
            resp.g_FE_ServerPort = settings::SHARDPORT;

            // copy IP to resp (this struct uses ASCII encoding so we don't have to goof around converting encodings)
            memcpy(resp.g_FE_ServerIP, SHARD_IP, strlen(SHARD_IP));
            resp.g_FE_ServerIP[strlen(SHARD_IP)] = '\0';

            // pass player to CNSharedData
            CNSharedData::setPlayer(resp.iEnterSerialKey, loginSessions[sock].characters[loginSessions[sock].selectedChar]);

            sock->sendPacket((void*)&resp, P_LS2CL_REP_SHARD_SELECT_SUCC, sizeof(sP_LS2CL_REP_SHARD_SELECT_SUCC));
            break;
        }
        case P_CL2LS_REQ_SAVE_CHAR_TUTOR: {
            if (data->size != sizeof(sP_CL2LS_REQ_SAVE_CHAR_TUTOR))
                return;
            sP_CL2LS_REQ_SAVE_CHAR_TUTOR* save = (sP_CL2LS_REQ_SAVE_CHAR_TUTOR*)data->buf;
            Database::finishTutorial(save->iPC_UID);
            //update character in session
            auto key = loginSessions[sock].characters[save->iPC_UID].FEKey;
            loginSessions[sock].characters[save->iPC_UID] = Player(Database::getPlayer(save->iPC_UID));
            loginSessions[sock].characters[save->iPC_UID].FEKey = key;
            //no response here
            break;
        }
        case P_CL2LS_REQ_CHANGE_CHAR_NAME: {
            if (data->size != sizeof(sP_CL2LS_REQ_CHANGE_CHAR_NAME))
                return;
            sP_CL2LS_REQ_CHANGE_CHAR_NAME* save = (sP_CL2LS_REQ_CHANGE_CHAR_NAME*)data->buf;
            Database::changeName(save);
            INITSTRUCT(sP_LS2CL_REP_CHANGE_CHAR_NAME_SUCC, resp);
            resp.iPC_UID = save->iPCUID;
            memcpy(resp.szFirstName, save->szFirstName, sizeof(char16_t)*9);
            memcpy(resp.szLastName, save->szLastName, sizeof(char16_t) * 17);
            resp.iSlotNum = save->iSlotNum;
            sock->sendPacket((void*)&resp, P_LS2CL_REP_CHANGE_CHAR_NAME_SUCC, sizeof(sP_LS2CL_REP_CHANGE_CHAR_NAME_SUCC));
            break;
        }
        case P_CL2LS_REQ_PC_EXIT_DUPLICATE:{
            if (data->size != sizeof(sP_CL2LS_REQ_PC_EXIT_DUPLICATE))
                return;

            sP_CL2LS_REQ_PC_EXIT_DUPLICATE* exit = (sP_CL2LS_REQ_PC_EXIT_DUPLICATE*)data->buf;
            auto account = Database::findAccount(U16toU8(exit->szID));
            if (account == nullptr)
                break;

            int accountId = account->AccountID;
            if (!exitDuplicate(accountId))
                PlayerManager::exitDuplicate(accountId);

            break;
        }
        default:
            if (settings::VERBOSITY)
                std::cerr << "OpenFusion: LOGIN UNIMPLM ERR. PacketType: " << Defines::p2str(CL2LS, data->type) << " (" << data->type << ")" << std::endl;
            break;
        /* Unimplemented CL2LS packets:
            P_CL2LS_CHECK_NAME_LIST - unused by the client
            P_CL2LS_REQ_SERVER_SELECT
            P_CL2LS_REQ_SHARD_LIST_INFO - dev commands, useless as we only run 1 server
        */
    }
}

void CNLoginServer::newConnection(CNSocket* cns) {
    cns->setActiveKey(SOCKETKEY_E); // by default they accept keys encrypted with the default key
}

void CNLoginServer::killConnection(CNSocket* cns) {
    loginSessions.erase(cns);
}

#pragma region helperMethods
bool CNLoginServer::isAccountInUse(int accountId) {
    std::map<CNSocket*, CNLoginData>::iterator it;
    for (it = CNLoginServer::loginSessions.begin(); it != CNLoginServer::loginSessions.end(); it++)
    {
        if (it->second.userID == accountId)
            return true;
    }
    return false;
}

bool CNLoginServer::exitDuplicate(int accountId) {
    std::map<CNSocket*, CNLoginData>::iterator it;
    for (it = CNLoginServer::loginSessions.begin(); it != CNLoginServer::loginSessions.end(); it++)
    {
        if (it->second.userID == accountId)
        {
            CNSocket* sock = it->first;
            INITSTRUCT(sP_LS2CL_REP_PC_EXIT_DUPLICATE, resp);
            resp.iErrorCode = 0;
            sock->sendPacket((void*)&resp, P_LS2CL_REP_PC_EXIT_DUPLICATE, sizeof(sP_LS2CL_REP_PC_EXIT_DUPLICATE));
            sock->kill();
            return true;
        }
    }
    return false;
}

bool CNLoginServer::isLoginDataGood(std::string login, std::string password) {
    std::regex loginRegex("[a-zA-Z0-9_-]{4,32}");
    std::regex passwordRegex("[a-zA-Z0-9!@#$%^&*()_+]{8,32}");
    return (std::regex_match(login, loginRegex) && std::regex_match(password, passwordRegex));
}

bool CNLoginServer::isPasswordCorrect(std::string actualPassword, std::string tryPassword) {
    return BCrypt::validatePassword(tryPassword, actualPassword);
}

bool CNLoginServer::isCharacterNameGood(std::string Firstname, std::string Lastname) {
    std::regex firstnamecheck("[a-zA-Z0-9]+(?: [a-zA-Z0-9]+)*$");
    std::regex lastnamecheck("[a-zA-Z0-9]+(?: [a-zA-Z0-9]+)*$");
    return (std::regex_match(Firstname, firstnamecheck) && std::regex_match(Lastname, lastnamecheck));
}
#pragma endregion helperMethods