DarkflameServer/dGame/dPropertyBehaviors/ControlBehaviors.cpp

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#include "ControlBehaviors.h"
#include "Amf3.h"
#include "Entity.h"
#include "Game.h"
#include "GameMessages.h"
#include "ModelComponent.h"
#include "../../dWorldServer/ObjectIDManager.h"
#include "Logger.h"
#include "BehaviorStates.h"
#include "AssetManager.h"
#include "BlockDefinition.h"
#include "User.h"
#include "tinyxml2.h"
#include "CDClientDatabase.h"
// Message includes
#include "Action.h"
#include "AddActionMessage.h"
#include "AddStripMessage.h"
#include "AddMessage.h"
#include "MigrateActionsMessage.h"
#include "MoveToInventoryMessage.h"
#include "MergeStripsMessage.h"
#include "RearrangeStripMessage.h"
#include "RemoveActionsMessage.h"
#include "RemoveStripMessage.h"
#include "RenameMessage.h"
#include "SplitStripMessage.h"
#include "UpdateActionMessage.h"
#include "UpdateStripUiMessage.h"
void ControlBehaviors::RequestUpdatedID(int32_t behaviorID, ModelComponent* modelComponent, Entity* modelOwner, const SystemAddress& sysAddr) {
// auto behavior = modelComponent->FindBehavior(behaviorID);
// if (behavior->GetBehaviorID() == -1 || behavior->GetShouldSetNewID()) {
// ObjectIDManager::Instance()->RequestPersistentID(
// [behaviorID, behavior, modelComponent, modelOwner, sysAddr](uint32_t persistentId) {
// behavior->SetShouldGetNewID(false);
// behavior->SetIsTemplated(false);
// behavior->SetBehaviorID(persistentId);
// // This updates the behavior ID of the behavior should this be a new behavior
// AMFArrayValue args;
// AMFStringValue* behaviorIDString = new AMFStringValue();
// behaviorIDString->SetValue(std::to_string(persistentId));
// args.InsertValue("behaviorID", behaviorIDString);
// AMFStringValue* objectIDAsString = new AMFStringValue();
// objectIDAsString->SetValue(std::to_string(modelComponent->GetParent()->GetObjectID()));
// args.InsertValue("objectID", objectIDAsString);
// GameMessages::SendUIMessageServerToSingleClient(modelOwner, sysAddr, "UpdateBehaviorID", &args);
// ControlBehaviors::SendBehaviorListToClient(modelComponent->GetParent(), sysAddr, modelOwner);
// });
// }
}
void ControlBehaviors::SendBehaviorListToClient(Entity* modelEntity, const SystemAddress& sysAddr, Entity* modelOwner) {
auto* modelComponent = modelEntity->GetComponent<ModelComponent>();
if (!modelComponent) return;
AMFArrayValue behaviorsToSerialize;
/**
* The behaviors AMFArray will have up to 5 elements in the dense portion.
* Each element in the dense portion will be made up of another AMFArray
* with the following information mapped in the associative portion
* "id": Behavior ID cast to an AMFString
* "isLocked": AMFTrue or AMFFalse of whether or not the behavior is locked
* "isLoot": AMFTrue or AMFFalse of whether or not the behavior is a custom behavior (true if custom)
* "name": The name of the behavior formatted as an AMFString
*/
behaviorsToSerialize.Insert("behaviors");
behaviorsToSerialize.Insert("objectID", std::to_string(modelComponent->GetParent()->GetObjectID()));
GameMessages::SendUIMessageServerToSingleClient(modelOwner, sysAddr, "UpdateBehaviorList", behaviorsToSerialize);
}
void ControlBehaviors::ModelTypeChanged(AMFArrayValue* arguments, ModelComponent* ModelComponent) {
auto* modelTypeAmf = arguments->Get<double>("ModelType");
if (!modelTypeAmf) return;
uint32_t modelType = static_cast<uint32_t>(modelTypeAmf->GetValue());
//TODO Update the model type here
}
void ControlBehaviors::ToggleExecutionUpdates() {
//TODO do something with this info
}
void ControlBehaviors::AddStrip(AMFArrayValue* arguments) {
AddStripMessage addStripMessage(arguments);
}
void ControlBehaviors::RemoveStrip(AMFArrayValue* arguments) {
RemoveStripMessage removeStrip(arguments);
}
void ControlBehaviors::MergeStrips(AMFArrayValue* arguments) {
MergeStripsMessage mergeStripsMessage(arguments);
}
void ControlBehaviors::SplitStrip(AMFArrayValue* arguments) {
SplitStripMessage splitStripMessage(arguments);
}
void ControlBehaviors::UpdateStripUI(AMFArrayValue* arguments) {
UpdateStripUiMessage updateStripUiMessage(arguments);
}
void ControlBehaviors::AddAction(AMFArrayValue* arguments) {
AddActionMessage addActionMessage(arguments);
}
void ControlBehaviors::MigrateActions(AMFArrayValue* arguments) {
MigrateActionsMessage migrateActionsMessage(arguments);
}
void ControlBehaviors::RearrangeStrip(AMFArrayValue* arguments) {
RearrangeStripMessage rearrangeStripMessage(arguments);
}
void ControlBehaviors::Add(AMFArrayValue* arguments) {
AddMessage addMessage(arguments);
}
void ControlBehaviors::RemoveActions(AMFArrayValue* arguments) {
RemoveActionsMessage removeActionsMessage(arguments);
}
void ControlBehaviors::Rename(Entity* modelEntity, const SystemAddress& sysAddr, Entity* modelOwner, AMFArrayValue* arguments) {
RenameMessage renameMessage(arguments);
}
// TODO This is also supposed to serialize the state of the behaviors in progress but those aren't implemented yet
void ControlBehaviors::SendBehaviorBlocksToClient(ModelComponent* modelComponent, const SystemAddress& sysAddr, Entity* modelOwner, AMFArrayValue* arguments) {
// uint32_t behaviorID = ControlBehaviors::GetBehaviorIDFromArgument(arguments);
// auto modelBehavior = modelComponent->FindBehavior(behaviorID);
// if (!modelBehavior) return;
// modelBehavior->VerifyStates();
// auto states = modelBehavior->GetBehaviorStates();
// // Begin serialization.
// /**
// * for each state
// * strip id
// * ui info
// * x
// * y
// * actions
// * action1
// * action2
// * ...
// * behaviorID of strip
// * objectID of strip
// */
// LWOOBJID targetObjectID = LWOOBJID_EMPTY;
// behaviorID = 0;
// AMFArrayValue behaviorInfo;
// AMFArrayValue* stateSerialize = new AMFArrayValue();
// for (auto it = states.begin(); it != states.end(); it++) {
// LOG("Begin serialization of state %i!\n", it->first);
// AMFArrayValue* state = new AMFArrayValue();
// AMFDoubleValue* stateAsDouble = new AMFDoubleValue();
// stateAsDouble->SetValue(it->first);
// state->InsertValue("id", stateAsDouble);
// AMFArrayValue* strips = new AMFArrayValue();
// auto stripsInState = it->second->GetStrips();
// for (auto strip = stripsInState.begin(); strip != stripsInState.end(); strip++) {
// LOG("Begin serialization of strip %i!\n", strip->first);
// AMFArrayValue* thisStrip = new AMFArrayValue();
// AMFDoubleValue* stripID = new AMFDoubleValue();
// stripID->SetValue(strip->first);
// thisStrip->InsertValue("id", stripID);
// AMFArrayValue* uiArray = new AMFArrayValue();
// AMFDoubleValue* yPosition = new AMFDoubleValue();
// yPosition->SetValue(strip->second->GetYPosition());
// uiArray->InsertValue("y", yPosition);
// AMFDoubleValue* xPosition = new AMFDoubleValue();
// xPosition->SetValue(strip->second->GetXPosition());
// uiArray->InsertValue("x", xPosition);
// thisStrip->InsertValue("ui", uiArray);
// targetObjectID = modelComponent->GetParent()->GetObjectID();
// behaviorID = modelBehavior->GetBehaviorID();
// AMFArrayValue* stripSerialize = new AMFArrayValue();
// for (auto behaviorAction : strip->second->GetActions()) {
// LOG("Begin serialization of action %s!\n", behaviorAction->actionName.c_str());
// AMFArrayValue* thisAction = new AMFArrayValue();
// AMFStringValue* actionName = new AMFStringValue();
// actionName->SetValue(behaviorAction->actionName);
// thisAction->InsertValue("Type", actionName);
// if (behaviorAction->parameterValueString != "")
// {
// AMFStringValue* valueAsString = new AMFStringValue();
// valueAsString->SetValue(behaviorAction->parameterValueString);
// thisAction->InsertValue(behaviorAction->parameterName, valueAsString);
// }
// else if (behaviorAction->parameterValueDouble != 0.0)
// {
// AMFDoubleValue* valueAsDouble = new AMFDoubleValue();
// valueAsDouble->SetValue(behaviorAction->parameterValueDouble);
// thisAction->InsertValue(behaviorAction->parameterName, valueAsDouble);
// }
// stripSerialize->PushBackValue(thisAction);
// }
// thisStrip->InsertValue("actions", stripSerialize);
// strips->PushBackValue(thisStrip);
// }
// state->InsertValue("strips", strips);
// stateSerialize->PushBackValue(state);
// }
// behaviorInfo.InsertValue("states", stateSerialize);
// AMFStringValue* objectidAsString = new AMFStringValue();
// objectidAsString->SetValue(std::to_string(targetObjectID));
// behaviorInfo.InsertValue("objectID", objectidAsString);
// AMFStringValue* behaviorIDAsString = new AMFStringValue();
// behaviorIDAsString->SetValue(std::to_string(behaviorID));
// behaviorInfo.InsertValue("BehaviorID", behaviorIDAsString);
// GameMessages::SendUIMessageServerToSingleClient(modelOwner, sysAddr, "UpdateBehaviorBlocks", &behaviorInfo);
}
void ControlBehaviors::UpdateAction(AMFArrayValue* arguments) {
UpdateActionMessage updateActionMessage(arguments);
auto* blockDefinition = GetBlockInfo(updateActionMessage.GetAction().GetType());
if (!blockDefinition) {
LOG("Received undefined block type %s. Ignoring.", updateActionMessage.GetAction().GetType().c_str());
return;
}
if (updateActionMessage.GetAction().GetValueParameterString().size() > 0) {
if (updateActionMessage.GetAction().GetValueParameterString().size() < blockDefinition->GetMinimumValue() ||
updateActionMessage.GetAction().GetValueParameterString().size() > blockDefinition->GetMaximumValue()) {
LOG("Updated block %s is out of range. Ignoring update", updateActionMessage.GetAction().GetType().c_str());
return;
}
} else {
if (updateActionMessage.GetAction().GetValueParameterDouble() < blockDefinition->GetMinimumValue() ||
updateActionMessage.GetAction().GetValueParameterDouble() > blockDefinition->GetMaximumValue()) {
LOG("Updated block %s is out of range. Ignoring update", updateActionMessage.GetAction().GetType().c_str());
return;
}
}
}
void ControlBehaviors::MoveToInventory(ModelComponent* modelComponent, const SystemAddress& sysAddr, Entity* modelOwner, AMFArrayValue* arguments) {
// This closes the UI menu should it be open while the player is removing behaviors
AMFArrayValue args;
args.Insert("visible", false);
GameMessages::SendUIMessageServerToSingleClient(modelOwner, modelOwner->GetParentUser()->GetSystemAddress(), "ToggleBehaviorEditor", args);
MoveToInventoryMessage moveToInventoryMessage(arguments);
SendBehaviorListToClient(modelComponent->GetParent(), sysAddr, modelOwner);
}
void ControlBehaviors::ProcessCommand(Entity* modelEntity, const SystemAddress& sysAddr, AMFArrayValue* arguments, std::string command, Entity* modelOwner) {
if (!isInitialized || !modelEntity || !modelOwner || !arguments) return;
auto* modelComponent = modelEntity->GetComponent<ModelComponent>();
if (!modelComponent) return;
if (command == "sendBehaviorListToClient")
SendBehaviorListToClient(modelEntity, sysAddr, modelOwner);
else if (command == "modelTypeChanged")
ModelTypeChanged(arguments, modelComponent);
else if (command == "toggleExecutionUpdates")
ToggleExecutionUpdates();
else if (command == "addStrip")
AddStrip(arguments);
else if (command == "removeStrip")
RemoveStrip(arguments);
else if (command == "mergeStrips")
MergeStrips(arguments);
else if (command == "splitStrip")
SplitStrip(arguments);
else if (command == "updateStripUI")
UpdateStripUI(arguments);
else if (command == "addAction")
AddAction(arguments);
else if (command == "migrateActions")
MigrateActions(arguments);
else if (command == "rearrangeStrip")
RearrangeStrip(arguments);
else if (command == "add")
Add(arguments);
else if (command == "removeActions")
RemoveActions(arguments);
else if (command == "rename")
Rename(modelEntity, sysAddr, modelOwner, arguments);
else if (command == "sendBehaviorBlocksToClient")
SendBehaviorBlocksToClient(modelComponent, sysAddr, modelOwner, arguments);
else if (command == "moveToInventory")
MoveToInventory(modelComponent, sysAddr, modelOwner, arguments);
else if (command == "updateAction")
UpdateAction(arguments);
else
LOG("Unknown behavior command (%s)\n", command.c_str());
}
ControlBehaviors::ControlBehaviors() {
auto blocksDefStreamBuffer = Game::assetManager->GetFileAsBuffer("ui\\ingame\\blocksdef.xml");
if (!blocksDefStreamBuffer.m_Success) {
LOG("failed to open blocksdef");
return;
}
std::istream blocksBuffer(&blocksDefStreamBuffer);
if (!blocksBuffer.good()) {
LOG("Blocks buffer is not good!");
return;
}
tinyxml2::XMLDocument m_Doc;
std::string read{};
std::string buffer{};
bool commentBlockStart = false;
while (std::getline(blocksBuffer, read)) {
// tinyxml2 should handle comment blocks but the client has one that fails the processing.
// This preprocessing just removes all comments from the read file out of an abundance of caution.
if (read.find("<!--") != std::string::npos) {
commentBlockStart = true;
}
if (read.find("-->") != std::string::npos) {
commentBlockStart = false;
continue;
}
if (!commentBlockStart) buffer += read;
}
auto ret = m_Doc.Parse(buffer.c_str());
if (ret == tinyxml2::XML_SUCCESS) {
LOG_DEBUG("Successfully parsed the blocksdef file!");
} else {
LOG("Failed to parse BlocksDef xmlData due to error %i!", ret);
return;
}
auto* blockLibrary = m_Doc.FirstChildElement();
if (!blockLibrary) {
LOG("No Block Library child element found.");
return;
}
// Now parse the blocksdef for the cheat detection server side.
// The client does these checks, but a bad actor can bypass the client checks
auto* blockSections = blockLibrary->FirstChildElement();
while (blockSections) {
auto* block = blockSections->FirstChildElement();
std::string blockName{};
while (block) {
blockName = block->Name();
BlockDefinition* blockDefinition = new BlockDefinition();
std::string name{};
std::string typeName{};
auto* argument = block->FirstChildElement("Argument");
if (argument) {
auto* defaultDefinition = argument->FirstChildElement("DefaultValue");
if (defaultDefinition) blockDefinition->SetDefaultValue(defaultDefinition->GetText());
auto* typeDefinition = argument->FirstChildElement("Type");
if (typeDefinition) typeName = typeDefinition->GetText();
auto* nameDefinition = argument->FirstChildElement("Name");
if (nameDefinition) name = nameDefinition->GetText();
// Now we parse the blocksdef file for the relevant information
if (typeName == "String") {
blockDefinition->SetMaximumValue(50); // The client has a hardcoded limit of 50 characters in a string field
} else if (typeName == "Float" || typeName == "Integer") {
auto* maximumDefinition = argument->FirstChildElement("Maximum");
if (maximumDefinition) blockDefinition->SetMaximumValue(std::stof(maximumDefinition->GetText()));
auto* minimumDefinition = argument->FirstChildElement("Minimum");
if (minimumDefinition) blockDefinition->SetMinimumValue(std::stof(minimumDefinition->GetText()));
} else if (typeName == "Enumeration") {
auto* values = argument->FirstChildElement("Values");
if (values) {
auto* value = values->FirstChildElement("Value");
while (value) {
if (value->GetText() == blockDefinition->GetDefaultValue()) blockDefinition->GetDefaultValue() = std::to_string(blockDefinition->GetMaximumValue());
blockDefinition->SetMaximumValue(blockDefinition->GetMaximumValue() + 1);
value = value->NextSiblingElement("Value");
}
blockDefinition->SetMaximumValue(blockDefinition->GetMaximumValue() - 1); // Maximum value is 0 indexed
} else {
values = argument->FirstChildElement("EnumerationSource");
if (!values) {
LOG("Failed to parse EnumerationSource from block (%s)", blockName.c_str());
continue;
}
auto* serviceNameNode = values->FirstChildElement("ServiceName");
if (!serviceNameNode) {
LOG("Failed to parse ServiceName from block (%s)", blockName.c_str());
continue;
}
std::string serviceName = serviceNameNode->GetText();
if (serviceName == "GetBehaviorSoundList") {
auto res = CDClientDatabase::ExecuteQuery("SELECT MAX(id) as countSounds FROM UGBehaviorSounds;");
blockDefinition->SetMaximumValue(res.getIntField("countSounds"));
blockDefinition->SetDefaultValue("0");
} else {
LOG("Unsupported Enumeration ServiceType (%s)", serviceName.c_str());
continue;
}
}
} else {
LOG("Unsupported block value type (%s)!", typeName.c_str());
continue;
}
}
blockTypes.insert(std::make_pair(blockName, blockDefinition));
block = block->NextSiblingElement();
}
blockSections = blockSections->NextSiblingElement();
}
isInitialized = true;
LOG_DEBUG("Created all base block classes");
for (auto b : blockTypes) {
LOG_DEBUG("block name is %s default %s min %f max %f", b.first.c_str(), b.second->GetDefaultValue().c_str(), b.second->GetMinimumValue(), b.second->GetMaximumValue());
}
}
BlockDefinition* ControlBehaviors::GetBlockInfo(const BlockName& blockName) {
auto blockDefinition = blockTypes.find(blockName);
return blockDefinition != blockTypes.end() ? blockDefinition->second : nullptr;
}