DarkflameServer/dGame/dComponents/ActivityComponent.cpp
David Markowitz dc29f5962d
Move CDClientManager to be a namespace (#1431)
Tested that worlds still load data as expected.  Had no use being a singleton anyways.
2024-02-08 23:40:43 -06:00

606 lines
20 KiB
C++

#include "ActivityComponent.h"
#include "GameMessages.h"
#include "CDClientManager.h"
#include "MissionComponent.h"
#include "Character.h"
#include "dZoneManager.h"
#include "ZoneInstanceManager.h"
#include "Game.h"
#include "Logger.h"
#include "WorldPackets.h"
#include "EntityManager.h"
#include "ChatPackets.h"
#include "BitStreamUtils.h"
#include "dServer.h"
#include "GeneralUtils.h"
#include "dZoneManager.h"
#include "dConfig.h"
#include "InventoryComponent.h"
#include "DestroyableComponent.h"
#include "Loot.h"
#include "eMissionTaskType.h"
#include "eMatchUpdate.h"
#include "eConnectionType.h"
#include "eChatInternalMessageType.h"
#include "CDCurrencyTableTable.h"
#include "CDActivityRewardsTable.h"
#include "CDActivitiesTable.h"
#include "LeaderboardManager.h"
ActivityComponent::ActivityComponent(Entity* parent, int32_t activityID) : Component(parent) {
/*
* This is precisely what the client does functionally
* Use the component id as the default activity id and load its data from the database
* if activityID is specified and if that column exists in the activities table, update the activity info with that data.
*/
m_ActivityID = activityID;
LoadActivityData(activityID);
if (m_Parent->HasVar(u"activityID")) {
m_ActivityID = parent->GetVar<int32_t>(u"activityID");
LoadActivityData(m_ActivityID);
}
auto* destroyableComponent = m_Parent->GetComponent<DestroyableComponent>();
if (destroyableComponent) {
// First lookup the loot matrix id for this component id.
CDActivityRewardsTable* activityRewardsTable = CDClientManager::GetTable<CDActivityRewardsTable>();
std::vector<CDActivityRewards> activityRewards = activityRewardsTable->Query([=](CDActivityRewards entry) {return (entry.LootMatrixIndex == destroyableComponent->GetLootMatrixID()); });
uint32_t startingLMI = 0;
// If we have one, set the starting loot matrix id to that.
if (activityRewards.size() > 0) {
startingLMI = activityRewards[0].LootMatrixIndex;
}
if (startingLMI > 0) {
// We may have more than 1 loot matrix index to use depending ont the size of the team that is looting the activity.
// So this logic will get the rest of the loot matrix indices for this activity.
std::vector<CDActivityRewards> objectTemplateActivities = activityRewardsTable->Query([=](CDActivityRewards entry) {return (activityRewards[0].objectTemplate == entry.objectTemplate); });
for (const auto& item : objectTemplateActivities) {
if (item.activityRating > 0 && item.activityRating < 5) {
m_ActivityLootMatrices.insert({ item.activityRating, item.LootMatrixIndex });
}
}
}
}
}
void ActivityComponent::LoadActivityData(const int32_t activityId) {
CDActivitiesTable* activitiesTable = CDClientManager::GetTable<CDActivitiesTable>();
std::vector<CDActivities> activities = activitiesTable->Query([activityId](CDActivities entry) {return (entry.ActivityID == activityId); });
bool soloRacing = Game::config->GetValue("solo_racing") == "1";
for (CDActivities activity : activities) {
m_ActivityInfo = activity;
if (static_cast<Leaderboard::Type>(activity.leaderboardType) == Leaderboard::Type::Racing && soloRacing) {
m_ActivityInfo.minTeamSize = 1;
m_ActivityInfo.minTeams = 1;
}
if (m_ActivityInfo.instanceMapID == -1) {
const auto& transferOverride = m_Parent->GetVarAsString(u"transferZoneID");
if (!transferOverride.empty()) {
GeneralUtils::TryParse(transferOverride, m_ActivityInfo.instanceMapID);
}
}
}
}
void ActivityComponent::Serialize(RakNet::BitStream* outBitStream, bool bIsInitialUpdate) {
outBitStream->Write(m_DirtyActivityInfo);
if (m_DirtyActivityInfo) {
outBitStream->Write<uint32_t>(m_ActivityPlayers.size());
if (!m_ActivityPlayers.empty()) {
for (const auto& activityPlayer : m_ActivityPlayers) {
outBitStream->Write<LWOOBJID>(activityPlayer->playerID);
for (const auto& activityValue : activityPlayer->values) {
outBitStream->Write<float_t>(activityValue);
}
}
}
if (!bIsInitialUpdate) m_DirtyActivityInfo = false;
}
}
void ActivityComponent::ReloadConfig() {
CDActivitiesTable* activitiesTable = CDClientManager::GetTable<CDActivitiesTable>();
std::vector<CDActivities> activities = activitiesTable->Query([this](CDActivities entry) {return (entry.ActivityID == m_ActivityID); });
for (auto activity : activities) {
auto mapID = m_ActivityInfo.instanceMapID;
if (static_cast<Leaderboard::Type>(activity.leaderboardType) == Leaderboard::Type::Racing && Game::config->GetValue("solo_racing") == "1") {
m_ActivityInfo.minTeamSize = 1;
m_ActivityInfo.minTeams = 1;
} else {
m_ActivityInfo.minTeamSize = activity.minTeamSize;
m_ActivityInfo.minTeams = activity.minTeams;
}
}
}
void ActivityComponent::HandleMessageBoxResponse(Entity* player, const std::string& id) {
if (id == "LobbyExit") {
PlayerLeave(player->GetObjectID());
} else if (id == "PlayButton") {
PlayerJoin(player);
}
}
void ActivityComponent::PlayerJoin(Entity* player) {
if (PlayerIsInQueue(player)) return;
// If we have a lobby, queue the player and allow others to join, otherwise spin up an instance on the spot
if (HasLobby()) {
PlayerJoinLobby(player);
} else if (!IsPlayedBy(player)) {
auto* instance = NewInstance();
instance->AddParticipant(player);
}
}
void ActivityComponent::PlayerJoinLobby(Entity* player) {
if (!m_Parent->HasComponent(eReplicaComponentType::QUICK_BUILD))
GameMessages::SendMatchResponse(player, player->GetSystemAddress(), 0); // tell the client they joined a lobby
LobbyPlayer* newLobbyPlayer = new LobbyPlayer();
newLobbyPlayer->entityID = player->GetObjectID();
Lobby* playerLobby = nullptr;
auto* character = player->GetCharacter();
if (character != nullptr)
character->SetLastNonInstanceZoneID(Game::zoneManager->GetZone()->GetWorldID());
for (Lobby* lobby : m_Queue) {
if (lobby->players.size() < m_ActivityInfo.maxTeamSize || m_ActivityInfo.maxTeamSize == 1 && lobby->players.size() < m_ActivityInfo.maxTeams) {
// If an empty slot in an existing lobby is found
lobby->players.push_back(newLobbyPlayer);
playerLobby = lobby;
// Update the joining player on players already in the lobby, and update players already in the lobby on the joining player
std::string matchUpdateJoined = "player=9:" + std::to_string(player->GetObjectID()) + "\nplayerName=0:" + player->GetCharacter()->GetName();
for (LobbyPlayer* joinedPlayer : lobby->players) {
auto* entity = joinedPlayer->GetEntity();
if (entity == nullptr) {
continue;
}
std::string matchUpdate = "player=9:" + std::to_string(entity->GetObjectID()) + "\nplayerName=0:" + entity->GetCharacter()->GetName();
GameMessages::SendMatchUpdate(player, player->GetSystemAddress(), matchUpdate, eMatchUpdate::PLAYER_ADDED);
PlayerReady(entity, joinedPlayer->ready);
GameMessages::SendMatchUpdate(entity, entity->GetSystemAddress(), matchUpdateJoined, eMatchUpdate::PLAYER_ADDED);
}
}
}
if (!playerLobby) {
// If all lobbies are full
playerLobby = new Lobby();
playerLobby->players.push_back(newLobbyPlayer);
playerLobby->timer = m_ActivityInfo.waitTime / 1000;
m_Queue.push_back(playerLobby);
}
if (m_ActivityInfo.maxTeamSize != 1 && playerLobby->players.size() >= m_ActivityInfo.minTeamSize || m_ActivityInfo.maxTeamSize == 1 && playerLobby->players.size() >= m_ActivityInfo.minTeams) {
// Update the joining player on the match timer
std::string matchTimerUpdate = "time=3:" + std::to_string(playerLobby->timer);
GameMessages::SendMatchUpdate(player, player->GetSystemAddress(), matchTimerUpdate, eMatchUpdate::PHASE_WAIT_READY);
}
}
void ActivityComponent::PlayerLeave(LWOOBJID playerID) {
// Removes the player from a lobby and notifies the others, not applicable for non-lobby instances
for (Lobby* lobby : m_Queue) {
for (int i = 0; i < lobby->players.size(); ++i) {
if (lobby->players[i]->entityID == playerID) {
std::string matchUpdateLeft = "player=9:" + std::to_string(playerID);
for (LobbyPlayer* lobbyPlayer : lobby->players) {
auto* entity = lobbyPlayer->GetEntity();
if (entity == nullptr)
continue;
GameMessages::SendMatchUpdate(entity, entity->GetSystemAddress(), matchUpdateLeft, eMatchUpdate::PLAYER_REMOVED);
}
delete lobby->players[i];
lobby->players[i] = nullptr;
lobby->players.erase(lobby->players.begin() + i);
return;
}
}
}
}
void ActivityComponent::Update(float deltaTime) {
std::vector<Lobby*> lobbiesToRemove{};
// Ticks all the lobbies, not applicable for non-instance activities
for (Lobby* lobby : m_Queue) {
for (LobbyPlayer* player : lobby->players) {
auto* entity = player->GetEntity();
if (entity == nullptr) {
PlayerLeave(player->entityID);
return;
}
}
if (lobby->players.empty()) {
lobbiesToRemove.push_back(lobby);
continue;
}
// Update the match time for all players
if (m_ActivityInfo.maxTeamSize != 1 && lobby->players.size() >= m_ActivityInfo.minTeamSize
|| m_ActivityInfo.maxTeamSize == 1 && lobby->players.size() >= m_ActivityInfo.minTeams) {
if (lobby->timer == m_ActivityInfo.waitTime / 1000) {
for (LobbyPlayer* joinedPlayer : lobby->players) {
auto* entity = joinedPlayer->GetEntity();
if (entity == nullptr)
continue;
std::string matchTimerUpdate = "time=3:" + std::to_string(lobby->timer);
GameMessages::SendMatchUpdate(entity, entity->GetSystemAddress(), matchTimerUpdate, eMatchUpdate::PHASE_WAIT_READY);
}
}
lobby->timer -= deltaTime;
}
bool lobbyReady = true;
for (LobbyPlayer* player : lobby->players) {
if (player->ready) continue;
lobbyReady = false;
}
// If everyone's ready, jump the timer
if (lobbyReady && lobby->timer > m_ActivityInfo.startDelay / 1000) {
lobby->timer = m_ActivityInfo.startDelay / 1000;
// Update players in lobby on switch to start delay
std::string matchTimerUpdate = "time=3:" + std::to_string(lobby->timer);
for (LobbyPlayer* player : lobby->players) {
auto* entity = player->GetEntity();
if (entity == nullptr)
continue;
GameMessages::SendMatchUpdate(entity, entity->GetSystemAddress(), matchTimerUpdate, eMatchUpdate::PHASE_WAIT_START);
}
}
// The timer has elapsed, start the instance
if (lobby->timer <= 0.0f) {
LOG("Setting up instance.");
ActivityInstance* instance = NewInstance();
LoadPlayersIntoInstance(instance, lobby->players);
instance->StartZone();
lobbiesToRemove.push_back(lobby);
}
}
while (!lobbiesToRemove.empty()) {
RemoveLobby(lobbiesToRemove.front());
lobbiesToRemove.erase(lobbiesToRemove.begin());
}
}
void ActivityComponent::RemoveLobby(Lobby* lobby) {
for (int i = 0; i < m_Queue.size(); ++i) {
if (m_Queue[i] == lobby) {
m_Queue.erase(m_Queue.begin() + i);
return;
}
}
}
bool ActivityComponent::HasLobby() const {
// If the player is not in the world he has to be, create a lobby for the transfer
return m_ActivityInfo.instanceMapID != UINT_MAX && m_ActivityInfo.instanceMapID != Game::server->GetZoneID();
}
bool ActivityComponent::PlayerIsInQueue(Entity* player) {
for (Lobby* lobby : m_Queue) {
for (LobbyPlayer* lobbyPlayer : lobby->players) {
if (player->GetObjectID() == lobbyPlayer->entityID) return true;
}
}
return false;
}
bool ActivityComponent::IsPlayedBy(Entity* player) const {
for (const auto* instance : this->m_Instances) {
for (const auto* instancePlayer : instance->GetParticipants()) {
if (instancePlayer != nullptr && instancePlayer->GetObjectID() == player->GetObjectID())
return true;
}
}
return false;
}
bool ActivityComponent::IsPlayedBy(LWOOBJID playerID) const {
for (const auto* instance : this->m_Instances) {
for (const auto* instancePlayer : instance->GetParticipants()) {
if (instancePlayer != nullptr && instancePlayer->GetObjectID() == playerID)
return true;
}
}
return false;
}
bool ActivityComponent::TakeCost(Entity* player) const {
if (m_ActivityInfo.optionalCostLOT <= 0 || m_ActivityInfo.optionalCostCount <= 0)
return true;
auto* inventoryComponent = player->GetComponent<InventoryComponent>();
if (inventoryComponent == nullptr)
return false;
if (inventoryComponent->GetLotCount(m_ActivityInfo.optionalCostLOT) < m_ActivityInfo.optionalCostCount)
return false;
inventoryComponent->RemoveItem(m_ActivityInfo.optionalCostLOT, m_ActivityInfo.optionalCostCount);
return true;
}
void ActivityComponent::PlayerReady(Entity* player, bool bReady) {
for (Lobby* lobby : m_Queue) {
for (LobbyPlayer* lobbyPlayer : lobby->players) {
if (lobbyPlayer->entityID == player->GetObjectID()) {
lobbyPlayer->ready = bReady;
// Update players in lobby on player being ready
std::string matchReadyUpdate = "player=9:" + std::to_string(player->GetObjectID());
eMatchUpdate readyStatus = eMatchUpdate::PLAYER_READY;
if (!bReady) readyStatus = eMatchUpdate::PLAYER_NOT_READY;
for (LobbyPlayer* otherPlayer : lobby->players) {
auto* entity = otherPlayer->GetEntity();
if (entity == nullptr)
continue;
GameMessages::SendMatchUpdate(entity, entity->GetSystemAddress(), matchReadyUpdate, readyStatus);
}
}
}
}
}
ActivityInstance* ActivityComponent::NewInstance() {
auto* instance = new ActivityInstance(m_Parent, m_ActivityInfo);
m_Instances.push_back(instance);
return instance;
}
void ActivityComponent::LoadPlayersIntoInstance(ActivityInstance* instance, const std::vector<LobbyPlayer*>& lobby) const {
for (LobbyPlayer* player : lobby) {
auto* entity = player->GetEntity();
if (entity == nullptr || !TakeCost(entity)) {
continue;
}
instance->AddParticipant(entity);
}
}
const std::vector<ActivityInstance*>& ActivityComponent::GetInstances() const {
return m_Instances;
}
ActivityInstance* ActivityComponent::GetInstance(const LWOOBJID playerID) {
for (const auto* instance : GetInstances()) {
for (const auto* participant : instance->GetParticipants()) {
if (participant->GetObjectID() == playerID)
return const_cast<ActivityInstance*>(instance);
}
}
return nullptr;
}
void ActivityComponent::ClearInstances() {
for (ActivityInstance* instance : m_Instances) {
delete instance;
}
m_Instances.clear();
}
ActivityPlayer* ActivityComponent::GetActivityPlayerData(LWOOBJID playerID) {
for (auto* activityData : m_ActivityPlayers) {
if (activityData->playerID == playerID) {
return activityData;
}
}
return nullptr;
}
void ActivityComponent::RemoveActivityPlayerData(LWOOBJID playerID) {
for (size_t i = 0; i < m_ActivityPlayers.size(); i++) {
if (m_ActivityPlayers[i]->playerID == playerID) {
delete m_ActivityPlayers[i];
m_ActivityPlayers[i] = nullptr;
m_ActivityPlayers.erase(m_ActivityPlayers.begin() + i);
m_DirtyActivityInfo = true;
Game::entityManager->SerializeEntity(m_Parent);
return;
}
}
}
ActivityPlayer* ActivityComponent::AddActivityPlayerData(LWOOBJID playerID) {
auto* data = GetActivityPlayerData(playerID);
if (data != nullptr)
return data;
m_ActivityPlayers.push_back(new ActivityPlayer{ playerID, {} });
m_DirtyActivityInfo = true;
Game::entityManager->SerializeEntity(m_Parent);
return GetActivityPlayerData(playerID);
}
float_t ActivityComponent::GetActivityValue(LWOOBJID playerID, uint32_t index) {
auto value = -1.0f;
auto* data = GetActivityPlayerData(playerID);
if (data != nullptr) {
value = data->values[std::min(index, static_cast<uint32_t>(9))];
}
return value;
}
void ActivityComponent::SetActivityValue(LWOOBJID playerID, uint32_t index, float_t value) {
auto* data = AddActivityPlayerData(playerID);
if (data != nullptr) {
data->values[std::min(index, static_cast<uint32_t>(9))] = value;
}
m_DirtyActivityInfo = true;
Game::entityManager->SerializeEntity(m_Parent);
}
void ActivityComponent::PlayerRemove(LWOOBJID playerID) {
for (auto* instance : GetInstances()) {
auto participants = instance->GetParticipants();
for (const auto* participant : participants) {
if (participant != nullptr && participant->GetObjectID() == playerID) {
instance->RemoveParticipant(participant);
RemoveActivityPlayerData(playerID);
// If the instance is empty after the delete of the participant, delete the instance too
if (instance->GetParticipants().empty()) {
m_Instances.erase(std::find(m_Instances.begin(), m_Instances.end(), instance));
delete instance;
}
return;
}
}
}
}
void ActivityInstance::StartZone() {
if (m_Participants.empty())
return;
const auto& participants = GetParticipants();
if (participants.empty())
return;
auto* leader = participants[0];
LWOZONEID zoneId = LWOZONEID(m_ActivityInfo.instanceMapID, 0, leader->GetCharacter()->GetPropertyCloneID());
// only make a team if we have more than one participant
if (participants.size() > 1) {
CBITSTREAM;
BitStreamUtils::WriteHeader(bitStream, eConnectionType::CHAT_INTERNAL, eChatInternalMessageType::CREATE_TEAM);
bitStream.Write(leader->GetObjectID());
bitStream.Write(m_Participants.size());
for (const auto& participant : m_Participants) {
bitStream.Write(participant);
}
bitStream.Write(zoneId);
Game::chatServer->Send(&bitStream, SYSTEM_PRIORITY, RELIABLE, 0, Game::chatSysAddr, false);
}
const auto cloneId = GeneralUtils::GenerateRandomNumber<uint32_t>(1, UINT32_MAX);
for (Entity* player : participants) {
const auto objid = player->GetObjectID();
ZoneInstanceManager::Instance()->RequestZoneTransfer(Game::server, m_ActivityInfo.instanceMapID, cloneId, false, [objid](bool mythranShift, uint32_t zoneID, uint32_t zoneInstance, uint32_t zoneClone, std::string serverIP, uint16_t serverPort) {
auto* player = Game::entityManager->GetEntity(objid);
if (player == nullptr)
return;
LOG("Transferring %s to Zone %i (Instance %i | Clone %i | Mythran Shift: %s) with IP %s and Port %i", player->GetCharacter()->GetName().c_str(), zoneID, zoneInstance, zoneClone, mythranShift == true ? "true" : "false", serverIP.c_str(), serverPort);
if (player->GetCharacter()) {
player->GetCharacter()->SetZoneID(zoneID);
player->GetCharacter()->SetZoneInstance(zoneInstance);
player->GetCharacter()->SetZoneClone(zoneClone);
}
WorldPackets::SendTransferToWorld(player->GetSystemAddress(), serverIP, serverPort, mythranShift);
return;
});
}
m_NextZoneCloneID++;
}
void ActivityInstance::RewardParticipant(Entity* participant) {
auto* missionComponent = participant->GetComponent<MissionComponent>();
if (missionComponent) {
missionComponent->Progress(eMissionTaskType::ACTIVITY, m_ActivityInfo.ActivityID);
}
// First, get the activity data
auto* activityRewardsTable = CDClientManager::GetTable<CDActivityRewardsTable>();
std::vector<CDActivityRewards> activityRewards = activityRewardsTable->Query([this](CDActivityRewards entry) { return (entry.objectTemplate == m_ActivityInfo.ActivityID); });
if (!activityRewards.empty()) {
uint32_t minCoins = 0;
uint32_t maxCoins = 0;
auto* currencyTableTable = CDClientManager::GetTable<CDCurrencyTableTable>();
std::vector<CDCurrencyTable> currencyTable = currencyTableTable->Query([=](CDCurrencyTable entry) { return (entry.currencyIndex == activityRewards[0].CurrencyIndex && entry.npcminlevel == 1); });
if (!currencyTable.empty()) {
minCoins = currencyTable[0].minvalue;
maxCoins = currencyTable[0].maxvalue;
}
Loot::DropLoot(participant, m_Parent, activityRewards[0].LootMatrixIndex, minCoins, maxCoins);
}
}
std::vector<Entity*> ActivityInstance::GetParticipants() const {
std::vector<Entity*> entities;
entities.reserve(m_Participants.size());
for (const auto& id : m_Participants) {
auto* entity = Game::entityManager->GetEntity(id);
if (entity != nullptr)
entities.push_back(entity);
}
return entities;
}
void ActivityInstance::AddParticipant(Entity* participant) {
const auto id = participant->GetObjectID();
if (std::count(m_Participants.begin(), m_Participants.end(), id))
return;
m_Participants.push_back(id);
}
void ActivityInstance::RemoveParticipant(const Entity* participant) {
const auto loadedParticipant = std::find(m_Participants.begin(), m_Participants.end(), participant->GetObjectID());
if (loadedParticipant != m_Participants.end()) {
m_Participants.erase(loadedParticipant);
}
}
uint32_t ActivityInstance::GetScore() const {
return score;
}
void ActivityInstance::SetScore(uint32_t score) {
this->score = score;
}
Entity* LobbyPlayer::GetEntity() const {
return Game::entityManager->GetEntity(entityID);
}