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pandemonium_engine/modules/network_synchronizer/scene_synchronizer.cpp

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Added the NetworkedController & SceneRewinder module from https://github.com/godotengine/godot/pull/37200. It's disabled for now, it needs to be ported.
2022-03-20 23:30:30 +01:00
/*************************************************************************/
/* scene_synchronizer.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2021 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2021 Godot Engine contributors (cf. AUTHORS.md). */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/*************************************************************************/
/**
@author AndreaCatania
*/
#include "scene_synchronizer.h"
#include "networked_controller.h"
#include "scene/main/window.h"
#include "scene_diff.h"
void SceneSynchronizer::_bind_methods() {
BIND_ENUM_CONSTANT(CHANGE)
BIND_ENUM_CONSTANT(SYNC_RECOVER)
BIND_ENUM_CONSTANT(SYNC_RESET)
BIND_ENUM_CONSTANT(SYNC_REWIND)
BIND_ENUM_CONSTANT(END_SYNC)
BIND_ENUM_CONSTANT(DEFAULT)
BIND_ENUM_CONSTANT(SYNC)
BIND_ENUM_CONSTANT(ALWAYS)
ClassDB::bind_method(D_METHOD("reset_synchronizer_mode"), &SceneSynchronizer::reset_synchronizer_mode);
ClassDB::bind_method(D_METHOD("clear"), &SceneSynchronizer::clear);
ClassDB::bind_method(D_METHOD("set_server_notify_state_interval", "interval"), &SceneSynchronizer::set_server_notify_state_interval);
ClassDB::bind_method(D_METHOD("get_server_notify_state_interval"), &SceneSynchronizer::get_server_notify_state_interval);
ClassDB::bind_method(D_METHOD("set_comparison_float_tolerance", "tolerance"), &SceneSynchronizer::set_comparison_float_tolerance);
ClassDB::bind_method(D_METHOD("get_comparison_float_tolerance"), &SceneSynchronizer::get_comparison_float_tolerance);
ClassDB::bind_method(D_METHOD("register_node", "node"), &SceneSynchronizer::register_node_gdscript);
ClassDB::bind_method(D_METHOD("unregister_node", "node"), &SceneSynchronizer::unregister_node);
ClassDB::bind_method(D_METHOD("get_node_id", "node"), &SceneSynchronizer::get_node_id);
ClassDB::bind_method(D_METHOD("get_node_from_id", "id"), &SceneSynchronizer::get_node_from_id);
ClassDB::bind_method(D_METHOD("register_variable", "node", "variable", "on_change_notify", "flags"), &SceneSynchronizer::register_variable, DEFVAL(StringName()), DEFVAL(NetEventFlag::DEFAULT));
ClassDB::bind_method(D_METHOD("unregister_variable", "node", "variable"), &SceneSynchronizer::unregister_variable);
ClassDB::bind_method(D_METHOD("get_variable_id", "node", "variable"), &SceneSynchronizer::get_variable_id);
ClassDB::bind_method(D_METHOD("start_node_sync", "node"), &SceneSynchronizer::start_node_sync);
ClassDB::bind_method(D_METHOD("stop_node_sync", "node"), &SceneSynchronizer::stop_node_sync);
ClassDB::bind_method(D_METHOD("is_node_sync", "node"), &SceneSynchronizer::is_node_sync);
ClassDB::bind_method(D_METHOD("set_skip_rewinding", "node", "variable", "skip_rewinding"), &SceneSynchronizer::set_skip_rewinding);
ClassDB::bind_method(D_METHOD("track_variable_changes", "node", "variable", "object", "method", "flags"), &SceneSynchronizer::track_variable_changes, DEFVAL(NetEventFlag::DEFAULT));
ClassDB::bind_method(D_METHOD("untrack_variable_changes", "node", "variable", "object", "method"), &SceneSynchronizer::untrack_variable_changes);
ClassDB::bind_method(D_METHOD("set_node_as_controlled_by", "node", "controller"), &SceneSynchronizer::set_node_as_controlled_by);
ClassDB::bind_method(D_METHOD("controller_add_dependency", "controller", "node"), &SceneSynchronizer::controller_add_dependency);
ClassDB::bind_method(D_METHOD("controller_remove_dependency", "controller", "node"), &SceneSynchronizer::controller_remove_dependency);
ClassDB::bind_method(D_METHOD("controller_get_dependency_count", "controller"), &SceneSynchronizer::controller_get_dependency_count);
ClassDB::bind_method(D_METHOD("controller_get_dependency", "controller", "index"), &SceneSynchronizer::controller_get_dependency);
ClassDB::bind_method(D_METHOD("register_process", "node", "function"), &SceneSynchronizer::register_process);
ClassDB::bind_method(D_METHOD("unregister_process", "node", "function"), &SceneSynchronizer::unregister_process);
ClassDB::bind_method(D_METHOD("start_tracking_scene_changes", "diff_handle"), &SceneSynchronizer::start_tracking_scene_changes);
ClassDB::bind_method(D_METHOD("stop_tracking_scene_changes", "diff_handle"), &SceneSynchronizer::stop_tracking_scene_changes);
ClassDB::bind_method(D_METHOD("pop_scene_changes", "diff_handle"), &SceneSynchronizer::pop_scene_changes);
ClassDB::bind_method(D_METHOD("apply_scene_changes", "sync_data"), &SceneSynchronizer::apply_scene_changes);
ClassDB::bind_method(D_METHOD("is_recovered"), &SceneSynchronizer::is_recovered);
ClassDB::bind_method(D_METHOD("is_resetted"), &SceneSynchronizer::is_resetted);
ClassDB::bind_method(D_METHOD("is_rewinding"), &SceneSynchronizer::is_rewinding);
ClassDB::bind_method(D_METHOD("is_end_sync"), &SceneSynchronizer::is_end_sync);
ClassDB::bind_method(D_METHOD("force_state_notify"), &SceneSynchronizer::force_state_notify);
ClassDB::bind_method(D_METHOD("set_enabled", "enabled"), &SceneSynchronizer::set_enabled);
ClassDB::bind_method(D_METHOD("set_peer_networking_enable", "peer", "enabled"), &SceneSynchronizer::set_peer_networking_enable);
ClassDB::bind_method(D_METHOD("get_peer_networking_enable", "peer"), &SceneSynchronizer::is_peer_networking_enable);
ClassDB::bind_method(D_METHOD("is_server"), &SceneSynchronizer::is_server);
ClassDB::bind_method(D_METHOD("is_client"), &SceneSynchronizer::is_client);
ClassDB::bind_method(D_METHOD("is_networked"), &SceneSynchronizer::is_networked);
ClassDB::bind_method(D_METHOD("_on_peer_connected"), &SceneSynchronizer::_on_peer_connected);
ClassDB::bind_method(D_METHOD("_on_peer_disconnected"), &SceneSynchronizer::_on_peer_disconnected);
ClassDB::bind_method(D_METHOD("_on_node_removed"), &SceneSynchronizer::_on_node_removed);
ClassDB::bind_method(D_METHOD("_rpc_send_state"), &SceneSynchronizer::_rpc_send_state);
ClassDB::bind_method(D_METHOD("_rpc_notify_need_full_snapshot"), &SceneSynchronizer::_rpc_notify_need_full_snapshot);
ClassDB::bind_method(D_METHOD("_rpc_set_network_enabled", "enabled"), &SceneSynchronizer::_rpc_set_network_enabled);
ClassDB::bind_method(D_METHOD("_rpc_notify_peer_status", "enabled"), &SceneSynchronizer::_rpc_notify_peer_status);
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "server_notify_state_interval", PROPERTY_HINT_RANGE, "0.001,10.0,0.0001"), "set_server_notify_state_interval", "get_server_notify_state_interval");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "comparison_float_tolerance", PROPERTY_HINT_RANGE, "0.000001,0.01,0.000001"), "set_comparison_float_tolerance", "get_comparison_float_tolerance");
ADD_SIGNAL(MethodInfo("sync_started"));
ADD_SIGNAL(MethodInfo("sync_paused"));
}
void SceneSynchronizer::_notification(int p_what) {
switch (p_what) {
case NOTIFICATION_INTERNAL_PHYSICS_PROCESS: {
if (Engine::get_singleton()->is_editor_hint())
return;
// TODO add a signal that allows to not check this each frame.
if (unlikely(peer_ptr != get_multiplayer()->get_network_peer().ptr())) {
reset_synchronizer_mode();
}
const int lowest_priority_number = INT32_MAX;
ERR_FAIL_COND_MSG(get_process_priority() != lowest_priority_number, "The process priority MUST not be changed, it's likely there is a better way of doing what you are trying to do, if you really need it please open an issue.");
process();
} break;
case NOTIFICATION_ENTER_TREE: {
if (Engine::get_singleton()->is_editor_hint())
return;
clear();
reset_synchronizer_mode();
get_multiplayer()->connect(SNAME("network_peer_connected"), Callable(this, SNAME("_on_peer_connected")));
get_multiplayer()->connect(SNAME("network_peer_disconnected"), Callable(this, SNAME("_on_peer_disconnected")));
get_tree()->connect(SNAME("node_removed"), Callable(this, SNAME("_on_node_removed")));
// Make sure to reset all the assigned controllers.
reset_controllers();
// Init the peers already connected.
if (get_tree()->get_multiplayer()->get_network_peer().is_valid()) {
const Vector<int> peer_ids = get_tree()->get_multiplayer()->get_network_connected_peers();
const int *peer_ids_ptr = peer_ids.ptr();
for (int i = 0; i < peer_ids.size(); i += 1) {
_on_peer_connected(peer_ids_ptr[i]);
}
}
} break;
case NOTIFICATION_EXIT_TREE: {
if (Engine::get_singleton()->is_editor_hint())
return;
clear_peers();
get_multiplayer()->disconnect(SNAME("network_peer_connected"), Callable(this, SNAME("_on_peer_connected")));
get_multiplayer()->disconnect(SNAME("network_peer_disconnected"), Callable(this, SNAME("_on_peer_disconnected")));
get_tree()->disconnect(SNAME("node_removed"), Callable(this, SNAME("_on_node_removed")));
clear();
if (synchronizer) {
memdelete(synchronizer);
synchronizer = nullptr;
synchronizer_type = SYNCHRONIZER_TYPE_NULL;
}
set_physics_process_internal(false);
// Make sure to reset all the assigned controllers.
reset_controllers();
}
}
}
SceneSynchronizer::SceneSynchronizer() {
rpc_config(SNAME("_rpc_send_state"), MultiplayerAPI::RPC_MODE_REMOTE, MultiplayerPeer::TRANSFER_MODE_RELIABLE);
rpc_config(SNAME("_rpc_notify_need_full_snapshot"), MultiplayerAPI::RPC_MODE_REMOTE, MultiplayerPeer::TRANSFER_MODE_RELIABLE);
rpc_config(SNAME("_rpc_set_network_enabled"), MultiplayerAPI::RPC_MODE_REMOTE, MultiplayerPeer::TRANSFER_MODE_RELIABLE);
rpc_config(SNAME("_rpc_notify_peer_status"), MultiplayerAPI::RPC_MODE_REMOTE, MultiplayerPeer::TRANSFER_MODE_RELIABLE);
// Avoid too much useless re-allocations.
event_listener.reserve(100);
}
SceneSynchronizer::~SceneSynchronizer() {
clear();
if (synchronizer) {
memdelete(synchronizer);
synchronizer = nullptr;
synchronizer_type = SYNCHRONIZER_TYPE_NULL;
}
}
void SceneSynchronizer::set_server_notify_state_interval(real_t p_interval) {
server_notify_state_interval = p_interval;
}
real_t SceneSynchronizer::get_server_notify_state_interval() const {
return server_notify_state_interval;
}
void SceneSynchronizer::set_comparison_float_tolerance(real_t p_tolerance) {
comparison_float_tolerance = p_tolerance;
}
real_t SceneSynchronizer::get_comparison_float_tolerance() const {
return comparison_float_tolerance;
}
NetUtility::NodeData *SceneSynchronizer::register_node(Node *p_node) {
ERR_FAIL_COND_V(p_node == nullptr, nullptr);
NetUtility::NodeData *nd = find_node_data(p_node);
if (unlikely(nd == nullptr)) {
nd = memnew(NetUtility::NodeData);
nd->id = UINT32_MAX;
nd->instance_id = p_node->get_instance_id();
nd->node = p_node;
NetworkedController *controller = Object::cast_to<NetworkedController>(p_node);
if (controller) {
if (unlikely(controller->has_scene_synchronizer())) {
ERR_FAIL_V_MSG(nullptr, "This controller already has a synchronizer. This is a bug!");
}
nd->is_controller = true;
controller->set_scene_synchronizer(this);
dirty_peers();
}
add_node_data(nd);
NET_DEBUG_PRINT("New node registered" + (generate_id ? String(" #ID: ") + itos(nd->id) : "") + " : " + p_node->get_path());
}
return nd;
}
uint32_t SceneSynchronizer::register_node_gdscript(Node *p_node) {
NetUtility::NodeData *nd = register_node(p_node);
if (unlikely(nd == nullptr)) {
return UINT32_MAX;
}
return nd->id;
}
void SceneSynchronizer::unregister_node(Node *p_node) {
ERR_FAIL_COND(p_node == nullptr);
NetUtility::NodeData *nd = find_node_data(p_node);
if (unlikely(nd == nullptr)) {
// Nothing to do.
return;
}
drop_node_data(nd);
}
uint32_t SceneSynchronizer::get_node_id(Node *p_node) {
ERR_FAIL_COND_V(p_node == nullptr, UINT32_MAX);
NetUtility::NodeData *nd = find_node_data(p_node);
ERR_FAIL_COND_V_MSG(nd == nullptr, UINT32_MAX, "This node " + p_node->get_path() + " is not yet registered, so there is not an available ID.");
return nd->id;
}
Node *SceneSynchronizer::get_node_from_id(uint32_t p_id) {
NetUtility::NodeData *nd = get_node_data(p_id);
ERR_FAIL_COND_V_MSG(nd == nullptr, nullptr, "The ID " + itos(p_id) + " is not assigned to any node.");
return nd->node;
}
void SceneSynchronizer::register_variable(Node *p_node, const StringName &p_variable, const StringName &p_on_change_notify, NetEventFlag p_flags) {
ERR_FAIL_COND(p_node == nullptr);
ERR_FAIL_COND(p_variable == StringName());
NetUtility::NodeData *node_data = register_node(p_node);
ERR_FAIL_COND(node_data == nullptr);
const int index = node_data->vars.find(p_variable);
if (index == -1) {
// The variable is not yet registered.
const Variant old_val = p_node->get(p_variable);
const int var_id = generate_id ? node_data->vars.size() : UINT32_MAX;
node_data->vars.push_back(
NetUtility::VarData(
var_id,
p_variable,
old_val,
false,
true));
} else {
// Make sure the var is active.
node_data->vars[index].enabled = true;
}
#ifdef DEBUG_ENABLED
for (uint32_t v = 0; v < node_data->vars.size(); v += 1) {
// This can't happen, because the ID is always consecutive, or UINT32_MAX.
CRASH_COND(node_data->vars[v].id != v && node_data->vars[v].id != UINT32_MAX);
}
#endif
if (p_on_change_notify != StringName()) {
track_variable_changes(p_node, p_variable, p_node, p_on_change_notify, p_flags);
}
if (synchronizer) {
synchronizer->on_variable_added(node_data, p_variable);
}
}
void SceneSynchronizer::unregister_variable(Node *p_node, const StringName &p_variable) {
ERR_FAIL_COND(p_node == nullptr);
ERR_FAIL_COND(p_variable == StringName());
NetUtility::NodeData *nd = find_node_data(p_node);
ERR_FAIL_COND(nd == nullptr);
const int64_t index = nd->vars.find(p_variable);
ERR_FAIL_COND(index == -1);
const NetVarId var_id = index;
// Never remove the variable values, because the order of the vars matters.
nd->vars[index].enabled = false;
for (int i = 0; i < nd->vars[var_id].change_listeners.size(); i += 1) {
const uint32_t event_index = nd->vars[var_id].change_listeners[i];
// Just erase the tracked variables without removing the listener to
// keep the order.
NetUtility::NodeChangeListener ncl;
ncl.node_data = nd;
ncl.var_id = var_id;
event_listener[event_index].watching_vars.erase(ncl);
}
nd->vars[index].change_listeners.clear();
}
void SceneSynchronizer::start_node_sync(const Node *p_node) {
ERR_FAIL_COND(p_node == nullptr);
NetUtility::NodeData *nd = find_node_data(p_node);
ERR_FAIL_COND(nd == nullptr);
nd->sync_enabled = true;
}
void SceneSynchronizer::stop_node_sync(const Node *p_node) {
ERR_FAIL_COND(p_node == nullptr);
NetUtility::NodeData *nd = find_node_data(p_node);
ERR_FAIL_COND(nd == nullptr);
nd->sync_enabled = false;
}
bool SceneSynchronizer::is_node_sync(const Node *p_node) const {
ERR_FAIL_COND_V(p_node == nullptr, false);
const NetUtility::NodeData *nd = find_node_data(p_node);
if (nd == nullptr) {
return false;
}
return nd->sync_enabled;
}
uint32_t SceneSynchronizer::get_variable_id(Node *p_node, const StringName &p_variable) {
ERR_FAIL_COND_V(p_node == nullptr, UINT32_MAX);
ERR_FAIL_COND_V(p_variable == StringName(), UINT32_MAX);
NetUtility::NodeData *nd = find_node_data(p_node);
ERR_FAIL_COND_V_MSG(nd == nullptr, UINT32_MAX, "This node " + p_node->get_path() + "is not registered.");
const int64_t index = nd->vars.find(p_variable);
ERR_FAIL_COND_V_MSG(index == -1, UINT32_MAX, "This variable " + p_node->get_path() + ":" + p_variable + " is not registered.");
return uint32_t(index);
}
void SceneSynchronizer::set_skip_rewinding(Node *p_node, const StringName &p_variable, bool p_skip_rewinding) {
ERR_FAIL_COND(p_node == nullptr);
ERR_FAIL_COND(p_variable == StringName());
NetUtility::NodeData *nd = find_node_data(p_node);
ERR_FAIL_COND(nd == nullptr);
const int64_t index = nd->vars.find(p_variable);
ERR_FAIL_COND(index == -1);
nd->vars[index].skip_rewinding = p_skip_rewinding;
}
void SceneSynchronizer::track_variable_changes(Node *p_node, const StringName &p_variable, Object *p_object, const StringName &p_method, NetEventFlag p_flags) {
ERR_FAIL_COND(p_node == nullptr);
ERR_FAIL_COND(p_variable == StringName());
ERR_FAIL_COND(p_method == StringName());
NetUtility::NodeData *nd = find_node_data(p_node);
ERR_FAIL_COND_MSG(nd == nullptr, "You need to register the variable to track its changes.");
const int64_t v = nd->vars.find(p_variable);
ERR_FAIL_COND_MSG(v == -1, "You need to register the variable to track its changes.");
const NetVarId var_id = v;
int64_t index;
{
NetUtility::ChangeListener listener;
listener.object_id = p_object->get_instance_id();
listener.method = p_method;
index = event_listener.find(listener);
if (-1 == index) {
// Add it.
listener.flag = p_flags;
listener.method_argument_count = UINT32_MAX;
// Search the method and get the argument count.
List<MethodInfo> methods;
p_object->get_method_list(&methods);
for (List<MethodInfo>::Element *e = methods.front(); e != nullptr; e = e->next()) {
if (e->get().name != p_method) {
continue;
}
listener.method_argument_count = e->get().arguments.size();
break;
}
ERR_FAIL_COND_MSG(listener.method_argument_count == UINT32_MAX, "The method " + p_method + " doesn't exist in this node: " + p_node->get_path());
index = event_listener.size();
event_listener.push_back(listener);
} else {
ERR_FAIL_COND_MSG(event_listener[index].flag != p_flags, "The event listener is already registered with the flag: " + itos(event_listener[index].flag) + ". You can't specify a different one.");
}
}
NetUtility::NodeChangeListener ncl;
ncl.node_data = nd;
ncl.var_id = var_id;
if (event_listener[index].watching_vars.find(ncl) != -1) {
return;
}
event_listener[index].watching_vars.push_back(ncl);
nd->vars[var_id].change_listeners.push_back(index);
}
void SceneSynchronizer::untrack_variable_changes(Node *p_node, const StringName &p_variable, Object *p_object, const StringName &p_method) {
ERR_FAIL_COND(p_node == nullptr);
ERR_FAIL_COND(p_variable == StringName());
ERR_FAIL_COND(p_method == StringName());
NetUtility::NodeData *nd = find_node_data(p_node);
ERR_FAIL_COND_MSG(nd == nullptr, "This not is not registered.");
const int64_t v = nd->vars.find(p_variable);
ERR_FAIL_COND_MSG(v == -1, "This variable is not registered.");
const NetVarId var_id = v;
NetUtility::ChangeListener listener;
listener.object_id = p_object->get_instance_id();
listener.method = p_method;
const int64_t index = event_listener.find(listener);
ERR_FAIL_COND_MSG(index == -1, "The variable is not know.");
NetUtility::NodeChangeListener ncl;
ncl.node_data = nd;
ncl.var_id = var_id;
event_listener[index].watching_vars.erase(ncl);
nd->vars[var_id].change_listeners.erase(index);
// Don't remove the listener to preserve the order.
}
void SceneSynchronizer::set_node_as_controlled_by(Node *p_node, Node *p_controller) {
NetUtility::NodeData *nd = register_node(p_node);
ERR_FAIL_COND(nd == nullptr);
ERR_FAIL_COND_MSG(nd->is_controller, "A controller can't be controlled by another controller.");
if (nd->controlled_by) {
// Put the node back into global.
nd->controlled_by->controlled_nodes.erase(nd);
nd->controlled_by = nullptr;
}
if (p_controller) {
NetworkedController *c = Object::cast_to<NetworkedController>(p_controller);
ERR_FAIL_COND_MSG(c == nullptr, "The controller must be a node of type: NetworkedController.");
NetUtility::NodeData *controller_node_data = register_node(p_controller);
ERR_FAIL_COND(controller_node_data == nullptr);
ERR_FAIL_COND_MSG(controller_node_data->is_controller == false, "The node can be only controlled by a controller.");
#ifdef DEBUG_ENABLED
CRASH_COND_MSG(controller_node_data->controlled_nodes.find(nd) != -1, "There is a bug the same node is added twice into the controlled_nodes.");
#endif
controller_node_data->controlled_nodes.push_back(nd);
nd->controlled_by = controller_node_data;
}
#ifdef DEBUG_ENABLED
// Make sure that all controlled nodes are into the proper controller.
for (uint32_t i = 0; i < node_data_controllers.size(); i += 1) {
for (uint32_t y = 0; y < node_data_controllers[i]->controlled_nodes.size(); y += 1) {
CRASH_COND(node_data_controllers[i]->controlled_nodes[y]->controlled_by != node_data_controllers[i]);
}
}
#endif
}
void SceneSynchronizer::controller_add_dependency(Node *p_controller, Node *p_node) {
if (is_client() == false) {
// Nothing to do.
return;
}
NetUtility::NodeData *controller_nd = find_node_data(p_controller);
ERR_FAIL_COND_MSG(controller_nd == nullptr, "The passed controller (" + p_controller->get_path() + ") is not registered.");
ERR_FAIL_COND_MSG(controller_nd->is_controller == false, "The node passed as controller (" + p_controller->get_path() + ") is not a controller.");
NetUtility::NodeData *node_nd = find_node_data(p_node);
ERR_FAIL_COND_MSG(node_nd == nullptr, "The passed node (" + p_node->get_path() + ") is not registered.");
ERR_FAIL_COND_MSG(node_nd->is_controller, "The node (" + p_node->get_path() + ") set as dependency is supposed to be just a node.");
ERR_FAIL_COND_MSG(node_nd->controlled_by != nullptr, "The node (" + p_node->get_path() + ") set as dependency is supposed to be just a node.");
const int64_t index = controller_nd->dependency_nodes.find(node_nd);
if (index == -1) {
controller_nd->dependency_nodes.push_back(node_nd);
controller_nd->dependency_nodes_end.push_back(UINT32_MAX);
} else {
// We already have this dependency, just make sure we don't delete it.
controller_nd->dependency_nodes_end[index] = UINT32_MAX;
}
}
void SceneSynchronizer::controller_remove_dependency(Node *p_controller, Node *p_node) {
if (is_client() == false) {
// Nothing to do.
return;
}
NetUtility::NodeData *controller_nd = find_node_data(p_controller);
ERR_FAIL_COND_MSG(controller_nd == nullptr, "The passed controller (" + p_controller->get_path() + ") is not registered.");
ERR_FAIL_COND_MSG(controller_nd->is_controller == false, "The node passed as controller (" + p_controller->get_path() + ") is not a controller.");
NetUtility::NodeData *node_nd = find_node_data(p_node);
ERR_FAIL_COND_MSG(node_nd == nullptr, "The passed node (" + p_node->get_path() + ") is not registered.");
ERR_FAIL_COND_MSG(node_nd->is_controller, "The node (" + p_node->get_path() + ") set as dependency is supposed to be just a node.");
ERR_FAIL_COND_MSG(node_nd->controlled_by != nullptr, "The node (" + p_node->get_path() + ") set as dependency is supposed to be just a node.");
const int64_t index = controller_nd->dependency_nodes.find(node_nd);
if (index == -1) {
// Nothing to do, this node is not a dependency.
return;
}
// Instead to remove the dependency immeditaly we have to postpone it till
// the server confirms the valitity via state.
// This operation is required otherwise the dependency is remvoved too early,
// and an eventual rewind may miss it.
// The actual removal is performed at the end of the sync.
controller_nd->dependency_nodes_end[index] =
static_cast<NetworkedController *>(controller_nd->node)->get_current_input_id();
}
int SceneSynchronizer::controller_get_dependency_count(Node *p_controller) const {
if (is_client() == false) {
// Nothing to do.
return 0;
}
const NetUtility::NodeData *controller_nd = find_node_data(p_controller);
ERR_FAIL_COND_V_MSG(controller_nd == nullptr, 0, "The passed controller (" + p_controller->get_path() + ") is not registered.");
ERR_FAIL_COND_V_MSG(controller_nd->is_controller == false, 0, "The node passed as controller (" + p_controller->get_path() + ") is not a controller.");
return controller_nd->dependency_nodes.size();
}
Node *SceneSynchronizer::controller_get_dependency(Node *p_controller, int p_index) {
if (is_client() == false) {
// Nothing to do.
return nullptr;
}
NetUtility::NodeData *controller_nd = find_node_data(p_controller);
ERR_FAIL_COND_V_MSG(controller_nd == nullptr, nullptr, "The passed controller (" + p_controller->get_path() + ") is not registered.");
ERR_FAIL_COND_V_MSG(controller_nd->is_controller == false, nullptr, "The node passed as controller (" + p_controller->get_path() + ") is not a controller.");
ERR_FAIL_INDEX_V(p_index, int(controller_nd->dependency_nodes.size()), nullptr);
return controller_nd->dependency_nodes[p_index]->node;
}
void SceneSynchronizer::register_process(Node *p_node, const StringName &p_function) {
ERR_FAIL_COND(p_node == nullptr);
ERR_FAIL_COND(p_function == StringName());
NetUtility::NodeData *node_data = register_node(p_node);
ERR_FAIL_COND(node_data == nullptr);
if (node_data->functions.find(p_function) == -1) {
node_data->functions.push_back(p_function);
}
}
void SceneSynchronizer::unregister_process(Node *p_node, const StringName &p_function) {
ERR_FAIL_COND(p_node == nullptr);
ERR_FAIL_COND(p_function == StringName());
NetUtility::NodeData *node_data = register_node(p_node);
ERR_FAIL_COND(node_data == nullptr);
node_data->functions.erase(p_function);
}
void SceneSynchronizer::start_tracking_scene_changes(Object *p_diff_handle) const {
ERR_FAIL_COND_MSG(get_tree()->get_multiplayer()->is_network_server() == false, "This function is supposed to be called only on server.");
SceneDiff *diff = Object::cast_to<SceneDiff>(p_diff_handle);
ERR_FAIL_COND_MSG(diff == nullptr, "The object is not a SceneDiff class.");
diff->start_tracking_scene_changes(organized_node_data);
}
void SceneSynchronizer::stop_tracking_scene_changes(Object *p_diff_handle) const {
ERR_FAIL_COND_MSG(get_tree()->get_multiplayer()->is_network_server() == false, "This function is supposed to be called only on server.");
SceneDiff *diff = Object::cast_to<SceneDiff>(p_diff_handle);
ERR_FAIL_COND_MSG(diff == nullptr, "The object is not a SceneDiff class.");
diff->stop_tracking_scene_changes(this);
}
Variant SceneSynchronizer::pop_scene_changes(Object *p_diff_handle) const {
ERR_FAIL_COND_V_MSG(
synchronizer_type != SYNCHRONIZER_TYPE_SERVER,
Variant(),
"This function is supposed to be called only on server.");
SceneDiff *diff = Object::cast_to<SceneDiff>(p_diff_handle);
ERR_FAIL_COND_V_MSG(
diff == nullptr,
Variant(),
"The object is not a SceneDiff class.");
ERR_FAIL_COND_V_MSG(
diff->is_tracking_in_progress(),
Variant(),
"You can't pop the changes while the tracking is still in progress.");
// Generates a sync_data and returns it.
Vector<Variant> ret;
for (NetNodeId node_id = 0; node_id < diff->diff.size(); node_id += 1) {
if (diff->diff[node_id].size() == 0) {
// Nothing to do.
continue;
}
bool node_id_in_ret = false;
for (NetVarId var_id = 0; var_id < diff->diff[node_id].size(); var_id += 1) {
if (diff->diff[node_id][var_id].is_different == false) {
continue;
}
if (node_id_in_ret == false) {
node_id_in_ret = true;
// Set the node id.
ret.push_back(node_id);
}
ret.push_back(var_id);
ret.push_back(diff->diff[node_id][var_id].value);
}
if (node_id_in_ret) {
// Close the Node data.
ret.push_back(Variant());
}
}
// Clear the diff data.
diff->diff.clear();
return ret.size() > 0 ? Variant(ret) : Variant();
}
void SceneSynchronizer::apply_scene_changes(const Variant &p_sync_data) {
ERR_FAIL_COND_MSG(is_client() == false, "This function is not supposed to be called on server.");
ClientSynchronizer *client_sync = static_cast<ClientSynchronizer *>(synchronizer);
change_events_begin(NetEventFlag::CHANGE);
const bool success = client_sync->parse_sync_data(
p_sync_data,
this,
// Parse the Node:
[](void *p_user_pointer, NetUtility::NodeData *p_node_data) {},
// Parse controller:
[](void *p_user_pointer, NetUtility::NodeData *p_node_data, uint32_t p_input_id) {},
// Parse variable:
[](void *p_user_pointer, NetUtility::NodeData *p_node_data, uint32_t p_var_id, const Variant &p_value) {
SceneSynchronizer *scene_sync = static_cast<SceneSynchronizer *>(p_user_pointer);
const Variant current_val = p_node_data->vars[p_var_id].var.value;
if (scene_sync->compare(current_val, p_value) == false) {
// There is a difference.
// Set the new value.
p_node_data->vars[p_var_id].var.value = p_value;
p_node_data->node->set(
p_node_data->vars[p_var_id].var.name,
p_value);
// Add an event.
scene_sync->change_event_add(
p_node_data,
p_var_id,
current_val);
}
});
if (success == false) {
NET_DEBUG_ERR("Scene changes:");
NET_DEBUG_ERR(p_sync_data);
}
change_events_flush();
}
bool SceneSynchronizer::is_recovered() const {
return recover_in_progress;
}
bool SceneSynchronizer::is_resetted() const {
return reset_in_progress;
}
bool SceneSynchronizer::is_rewinding() const {
return rewinding_in_progress;
}
bool SceneSynchronizer::is_end_sync() const {
return end_sync;
}
void SceneSynchronizer::force_state_notify() {
ERR_FAIL_COND(is_server() == false);
ServerSynchronizer *r = static_cast<ServerSynchronizer *>(synchronizer);
// + 1.0 is just a ridiculous high number to be sure to avoid float
// precision error.
r->state_notifier_timer = get_server_notify_state_interval() + 1.0;
}
void SceneSynchronizer::dirty_peers() {
peer_dirty = true;
}
void SceneSynchronizer::set_enabled(bool p_enable) {
ERR_FAIL_COND_MSG(synchronizer_type == SYNCHRONIZER_TYPE_SERVER, "The server is always enabled.");
if (synchronizer_type == SYNCHRONIZER_TYPE_CLIENT) {
rpc_id(1, SNAME("_rpc_set_network_enabled"), p_enable);
if (p_enable == false) {
// If the peer want to disable, we can disable it locally
// immediately. When it wants to enable the networking, the server
// must be notified so it decides when to start the networking
// again.
static_cast<ClientSynchronizer *>(synchronizer)->set_enabled(p_enable);
}
} else if (synchronizer_type == SYNCHRONIZER_TYPE_NONETWORK) {
set_peer_networking_enable(0, p_enable);
}
}
bool SceneSynchronizer::is_enabled() const {
ERR_FAIL_COND_V_MSG(synchronizer_type == SYNCHRONIZER_TYPE_SERVER, false, "The server is always enabled.");
if (likely(synchronizer_type == SYNCHRONIZER_TYPE_CLIENT)) {
return static_cast<ClientSynchronizer *>(synchronizer)->enabled;
} else if (synchronizer_type == SYNCHRONIZER_TYPE_NONETWORK) {
return static_cast<NoNetSynchronizer *>(synchronizer)->enabled;
} else {
return true;
}
}
void SceneSynchronizer::set_peer_networking_enable(int p_peer, bool p_enable) {
if (synchronizer_type == SYNCHRONIZER_TYPE_SERVER) {
ERR_FAIL_COND_MSG(p_peer == 1, "Disable the server is not possible.");
NetUtility::PeerData *pd = peer_data.lookup_ptr(p_peer);
ERR_FAIL_COND_MSG(pd == nullptr, "The peer: " + itos(p_peer) + " is not know. [bug]");
if (pd->enabled == p_enable) {
// Nothing to do.
return;
}
pd->enabled = p_enable;
// Set to true, so next time this peer connects a full snapshot is sent.
pd->force_notify_snapshot = true;
pd->need_full_snapshot = true;
dirty_peers();
// Just notify the peer status.
rpc_id(p_peer, SNAME("_rpc_notify_peer_status"), p_enable);
} else {
ERR_FAIL_COND_MSG(synchronizer_type != SYNCHRONIZER_TYPE_NONETWORK, "At this point no network is expected.");
static_cast<NoNetSynchronizer *>(synchronizer)->set_enabled(p_enable);
}
}
bool SceneSynchronizer::is_peer_networking_enable(int p_peer) const {
if (synchronizer_type == SYNCHRONIZER_TYPE_SERVER) {
if (p_peer == 1) {
// Server is always enabled.
return true;
}
NetUtility::PeerData *pd = peer_data.lookup_ptr(p_peer);
ERR_FAIL_COND_V_MSG(pd == nullptr, false, "The peer: " + itos(p_peer) + " is not know. [bug]");
return pd->enabled;
} else {
ERR_FAIL_COND_V_MSG(synchronizer_type != SYNCHRONIZER_TYPE_NONETWORK, false, "At this point no network is expected.");
return static_cast<NoNetSynchronizer *>(synchronizer)->is_enabled();
}
}
void SceneSynchronizer::_on_peer_connected(int p_peer) {
peer_data.insert(p_peer, NetUtility::PeerData());
dirty_peers();
}
void SceneSynchronizer::_on_peer_disconnected(int p_peer) {
peer_data.remove(p_peer);
// Notify all controllers that this peer is gone.
for (uint32_t i = 0; i < node_data_controllers.size(); i += 1) {
NetworkedController *c = static_cast<NetworkedController *>(node_data_controllers[i]->node);
c->controller->deactivate_peer(p_peer);
}
}
void SceneSynchronizer::_on_node_removed(Node *p_node) {
unregister_node(p_node);
}
void SceneSynchronizer::reset_synchronizer_mode() {
set_physics_process_internal(false);
const bool was_generating_ids = generate_id;
generate_id = false;
if (synchronizer) {
memdelete(synchronizer);
synchronizer = nullptr;
synchronizer_type = SYNCHRONIZER_TYPE_NULL;
}
peer_ptr = get_multiplayer() == nullptr ? nullptr : get_multiplayer()->get_network_peer().ptr();
if (get_tree() == nullptr || get_tree()->get_multiplayer()->get_network_peer().is_null()) {
synchronizer_type = SYNCHRONIZER_TYPE_NONETWORK;
synchronizer = memnew(NoNetSynchronizer(this));
generate_id = true;
} else if (get_tree()->get_multiplayer()->is_network_server()) {
synchronizer_type = SYNCHRONIZER_TYPE_SERVER;
synchronizer = memnew(ServerSynchronizer(this));
generate_id = true;
} else {
synchronizer_type = SYNCHRONIZER_TYPE_CLIENT;
synchronizer = memnew(ClientSynchronizer(this));
}
// Always runs the SceneSynchronizer last.
const int lowest_priority_number = INT32_MAX;
set_process_priority(lowest_priority_number);
set_physics_process_internal(true);
if (was_generating_ids != generate_id) {
organized_node_data.resize(node_data.size());
for (uint32_t i = 0; i < node_data.size(); i += 1) {
if (node_data[i] == nullptr) {
continue;
}
// Handle the node ID.
if (generate_id) {
node_data[i]->id = i;
organized_node_data[i] = node_data[i];
} else {
node_data[i]->id = UINT32_MAX;
organized_node_data[i] = nullptr;
}
// Handle the variables ID.
for (uint32_t v = 0; v < node_data[i]->vars.size(); v += 1) {
if (generate_id) {
node_data[i]->vars[v].id = v;
} else {
node_data[i]->vars[v].id = UINT32_MAX;
}
}
}
}
// Notify the presence all available nodes and its variables to the synchronizer.
for (uint32_t i = 0; i < node_data.size(); i += 1) {
synchronizer->on_node_added(node_data[i]);
for (uint32_t y = 0; y < node_data[i]->vars.size(); y += 1) {
synchronizer->on_variable_added(node_data[i], node_data[i]->vars[y].var.name);
}
}
// Reset the controllers.
reset_controllers();
}
void SceneSynchronizer::clear() {
// Drop the node_data.
for (uint32_t i = 0; i < node_data.size(); i += 1) {
if (node_data[i] != nullptr) {
drop_node_data(node_data[i]);
}
}
node_data.reset();
organized_node_data.reset();
node_data_controllers.reset();
event_listener.reset();
// Avoid too much useless re-allocations.
event_listener.reserve(100);
if (synchronizer) {
synchronizer->clear();
}
}
void SceneSynchronizer::_rpc_send_state(const Variant &p_snapshot) {
ERR_FAIL_COND_MSG(is_client() == false, "Only clients are suposed to receive the server snapshot.");
static_cast<ClientSynchronizer *>(synchronizer)->receive_snapshot(p_snapshot);
}
void SceneSynchronizer::_rpc_notify_need_full_snapshot() {
ERR_FAIL_COND_MSG(is_server() == false, "Only the server can receive the request to send a full snapshot.");
const int sender_peer = get_tree()->get_multiplayer()->get_rpc_sender_id();
NetUtility::PeerData *pd = peer_data.lookup_ptr(sender_peer);
ERR_FAIL_COND(pd == nullptr);
pd->need_full_snapshot = true;
}
void SceneSynchronizer::_rpc_set_network_enabled(bool p_enabled) {
ERR_FAIL_COND_MSG(is_server() == false, "The peer status is supposed to be received by the server.");
set_peer_networking_enable(
get_multiplayer()->get_rpc_sender_id(),
p_enabled);
}
void SceneSynchronizer::_rpc_notify_peer_status(bool p_enabled) {
ERR_FAIL_COND_MSG(is_client() == false, "The peer status is supposed to be received by the client.");
static_cast<ClientSynchronizer *>(synchronizer)->set_enabled(p_enabled);
}
void SceneSynchronizer::update_peers() {
#ifdef DEBUG_ENABLED
// This function is only called on server.
CRASH_COND(synchronizer_type != SYNCHRONIZER_TYPE_SERVER);
#endif
if (likely(peer_dirty == false)) {
return;
}
peer_dirty = false;
for (OAHashMap<int, NetUtility::PeerData>::Iterator it = peer_data.iter();
it.valid;
it = peer_data.next_iter(it)) {
// Validate the peer.
if (it.value->controller_id != UINT32_MAX) {
NetUtility::NodeData *nd = get_node_data(it.value->controller_id);
if (nd == nullptr ||
nd->is_controller == false ||
nd->node->get_network_master() != (*it.key)) {
// Invalidate the controller id
it.value->controller_id = UINT32_MAX;
}
}
if (it.value->controller_id == UINT32_MAX) {
// The controller_id is not assigned, search it.
for (uint32_t i = 0; i < node_data_controllers.size(); i += 1) {
if (node_data_controllers[i]->node->get_network_master() == (*it.key)) {
// Controller found.
it.value->controller_id = node_data_controllers[i]->id;
break;
}
}
}
// Propagate the peer change to controllers.
for (uint32_t i = 0; i < node_data_controllers.size(); i += 1) {
NetworkedController *c = static_cast<NetworkedController *>(node_data_controllers[i]->node);
if (it.value->controller_id == node_data_controllers[i]->id) {
// This is the controller owned by this peer.
c->get_server_controller()->set_enabled(it.value->enabled);
} else {
// This is a controller owned by another peer.
if (it.value->enabled) {
c->controller->activate_peer(*it.key);
} else {
c->controller->deactivate_peer(*it.key);
}
}
}
}
}
void SceneSynchronizer::clear_peers() {
peer_data.clear();
for (uint32_t i = 0; i < node_data_controllers.size(); i += 1) {
NetworkedController *c = static_cast<NetworkedController *>(node_data_controllers[i]->node);
c->controller->clear_peers();
}
}
void SceneSynchronizer::change_events_begin(int p_flag) {
#ifdef DEBUG_ENABLED
// This can't happen because at the end these are reset.
CRASH_COND(recover_in_progress);
CRASH_COND(reset_in_progress);
CRASH_COND(rewinding_in_progress);
CRASH_COND(end_sync);
#endif
event_flag = p_flag;
recover_in_progress = NetEventFlag::SYNC & p_flag;
reset_in_progress = NetEventFlag::SYNC_RESET & p_flag;
rewinding_in_progress = NetEventFlag::SYNC_REWIND & p_flag;
end_sync = NetEventFlag::END_SYNC & p_flag;
}
void SceneSynchronizer::change_event_add(NetUtility::NodeData *p_node_data, NetVarId p_var_id, const Variant &p_old) {
for (int i = 0; i < p_node_data->vars[p_var_id].change_listeners.size(); i += 1) {
const uint32_t listener_index = p_node_data->vars[p_var_id].change_listeners[i];
NetUtility::ChangeListener &listener = event_listener[listener_index];
if ((listener.flag & event_flag) == 0) {
// Not listening to this event.
continue;
}
listener.emitted = false;
NetUtility::NodeChangeListener ncl;
ncl.node_data = p_node_data;
ncl.var_id = p_var_id;
const int64_t index = listener.watching_vars.find(ncl);
#ifdef DEBUG_ENABLED
// This can't never happen because the `NodeData::change_listeners`
// tracks the correct listener.
CRASH_COND(index == -1);
#endif
listener.watching_vars[index].old_value = p_old;
listener.watching_vars[index].old_set = true;
}
// Notify the synchronizer.
if (synchronizer) {
synchronizer->on_variable_changed(
p_node_data,
p_var_id,
p_old,
event_flag);
}
}
void SceneSynchronizer::change_events_flush() {
LocalVector<Variant> vars;
LocalVector<const Variant *> vars_ptr;
// TODO this can be optimized by storing the changed listener in a separate
// vector. This change must be inserted into the `change_event_add`.
for (uint32_t listener_i = 0; listener_i < event_listener.size(); listener_i += 1) {
NetUtility::ChangeListener &listener = event_listener[listener_i];
if (listener.emitted) {
continue;
}
listener.emitted = true;
Object *obj = ObjectDB::get_instance(listener.object_id);
if (obj == nullptr) {
// Setting the flag to 0 so no events trigger this anymore.
listener.flag = NetEventFlag::EMPTY;
listener.object_id = ObjectID();
listener.method = StringName();
// Make sure this listener is not tracking any variable.
for (uint32_t wv = 0; wv < listener.watching_vars.size(); wv += 1) {
NetUtility::NodeData *nd = listener.watching_vars[wv].node_data;
uint32_t var_id = listener.watching_vars[wv].var_id;
nd->vars[var_id].change_listeners.erase(listener_i);
}
listener.watching_vars.clear();
continue;
}
// Initialize the arguments
ERR_CONTINUE_MSG(listener.method_argument_count > listener.watching_vars.size(), "This method " + listener.method + " has more arguments than the watched variables. This listener is broken.");
vars.resize(MIN(listener.watching_vars.size(), listener.method_argument_count));
vars_ptr.resize(vars.size());
for (uint32_t v = 0; v < MIN(listener.watching_vars.size(), listener.method_argument_count); v += 1) {
if (listener.watching_vars[v].old_set) {
vars[v] = listener.watching_vars[v].old_value;
listener.watching_vars[v].old_set = false;
} else {
// This value is not changed, so just retrive the current one.
vars[v] = listener.watching_vars[v].node_data->vars[listener.watching_vars[v].var_id].var.value;
}
vars_ptr[v] = vars.ptr() + v;
}
Callable::CallError e;
obj->call(listener.method, vars_ptr.ptr(), vars_ptr.size(), e);
}
recover_in_progress = false;
reset_in_progress = false;
rewinding_in_progress = false;
end_sync = false;
}
void SceneSynchronizer::add_node_data(NetUtility::NodeData *p_node_data) {
if (generate_id) {
#ifdef DEBUG_ENABLED
// When generate_id is true, the id must always be undefined.
CRASH_COND(p_node_data->id != UINT32_MAX);
#endif
p_node_data->id = organized_node_data.size();
}
#ifdef DEBUG_ENABLED
// Make sure the registered nodes have an unique ID.
// Due to an engine bug, it's possible to have two different nodes with the
// exact same path:
// - Create a scene.
// - Add a child with the name `BadChild`.
// - Instance the scene into another scene.
// - Add a child, under the instanced scene, with the name `BadChild`.
// Now you have the scene with two different nodes but same path.
for (uint32_t i = 0; i < node_data.size(); i += 1) {
if (node_data[i]->node->get_path() == p_node_data->node->get_path()) {
NET_DEBUG_ERR("You have two different nodes with the same path: " + p_node_data->node->get_path() + ". This will cause troubles. Fix it.");
break;
}
}
#endif
node_data.push_back(p_node_data);
if (generate_id) {
organized_node_data.push_back(p_node_data);
} else {
if (p_node_data->id != UINT32_MAX) {
// This node has an ID, make sure to organize it properly.
if (organized_node_data.size() <= p_node_data->id) {
expand_organized_node_data_vector((p_node_data->id + 1) - organized_node_data.size());
}
organized_node_data[p_node_data->id] = p_node_data;
}
}
if (p_node_data->is_controller) {
node_data_controllers.push_back(p_node_data);
reset_controller(p_node_data);
}
if (synchronizer) {
synchronizer->on_node_added(p_node_data);
}
}
void SceneSynchronizer::drop_node_data(NetUtility::NodeData *p_node_data) {
if (synchronizer) {
synchronizer->on_node_removed(p_node_data);
}
if (p_node_data->controlled_by) {
// This node is controlled by another one, remove from that node.
p_node_data->controlled_by->controlled_nodes.erase(p_node_data);
p_node_data->controlled_by = nullptr;
}
if (p_node_data->is_controller) {
// This is a controller, make sure to reset the peers.
static_cast<NetworkedController *>(p_node_data->node)->set_scene_synchronizer(nullptr);
dirty_peers();
node_data_controllers.erase(p_node_data);
}
node_data.erase(p_node_data);
if (p_node_data->id < organized_node_data.size()) {
// Never resize this vector to keep it sort.
organized_node_data[p_node_data->id] = nullptr;
}
for (uint32_t i = 0; i < node_data_controllers.size(); i += 1) {
const int64_t index = node_data_controllers[i]->dependency_nodes.find(p_node_data);
if (index != -1) {
node_data_controllers[i]->dependency_nodes.remove_unordered(index);
node_data_controllers[i]->dependency_nodes_end.remove_unordered(index);
}
}
// Remove this `NodeData` from any event listener.
for (uint32_t i = 0; i < event_listener.size(); i += 1) {
while (true) {
uint32_t index_to_remove = UINT32_MAX;
// Search.
for (uint32_t v = 0; v < event_listener[i].watching_vars.size(); v += 1) {
if (event_listener[i].watching_vars[v].node_data == p_node_data) {
index_to_remove = v;
break;
}
}
if (index_to_remove == UINT32_MAX) {
// Nothing more to do.
break;
} else {
event_listener[i].watching_vars.remove_unordered(index_to_remove);
}
}
}
memdelete(p_node_data);
}
void SceneSynchronizer::set_node_data_id(NetUtility::NodeData *p_node_data, NetNodeId p_id) {
#ifdef DEBUG_ENABLED
CRASH_COND_MSG(generate_id, "This function is not supposed to be called, because this instance is generating the IDs");
#endif
if (organized_node_data.size() <= p_id) {
expand_organized_node_data_vector((p_id + 1) - organized_node_data.size());
}
p_node_data->id = p_id;
organized_node_data[p_id] = p_node_data;
NET_DEBUG_PRINT("NetNodeId: " + itos(p_id) + " just assigned to: " + p_node_data->node->get_path());
}
bool SceneSynchronizer::compare(const Vector2 &p_first, const Vector2 &p_second) const {
return compare(p_first, p_second, comparison_float_tolerance);
}
bool SceneSynchronizer::compare(const Vector3 &p_first, const Vector3 &p_second) const {
return compare(p_first, p_second, comparison_float_tolerance);
}
bool SceneSynchronizer::compare(const Variant &p_first, const Variant &p_second) const {
return compare(p_first, p_second, comparison_float_tolerance);
}
bool SceneSynchronizer::compare(const Vector2 &p_first, const Vector2 &p_second, real_t p_tolerance) {
return Math::is_equal_approx(p_first.x, p_second.x, p_tolerance) &&
Math::is_equal_approx(p_first.y, p_second.y, p_tolerance);
}
bool SceneSynchronizer::compare(const Vector3 &p_first, const Vector3 &p_second, real_t p_tolerance) {
return Math::is_equal_approx(p_first.x, p_second.x, p_tolerance) &&
Math::is_equal_approx(p_first.y, p_second.y, p_tolerance) &&
Math::is_equal_approx(p_first.z, p_second.z, p_tolerance);
}
bool SceneSynchronizer::compare(const Variant &p_first, const Variant &p_second, real_t p_tolerance) {
if (p_first.get_type() != p_second.get_type()) {
return false;
}
// Custom evaluation methods
switch (p_first.get_type()) {
case Variant::FLOAT: {
return Math::is_equal_approx(p_first, p_second, p_tolerance);
}
case Variant::VECTOR2: {
return compare(Vector2(p_first), Vector2(p_second), p_tolerance);
}
case Variant::RECT2: {
const Rect2 a(p_first);
const Rect2 b(p_second);
if (compare(a.position, b.position, p_tolerance)) {
if (compare(a.size, b.size, p_tolerance)) {
return true;
}
}
return false;
}
case Variant::TRANSFORM2D: {
const Transform2D a(p_first);
const Transform2D b(p_second);
if (compare(a.elements[0], b.elements[0], p_tolerance)) {
if (compare(a.elements[1], b.elements[1], p_tolerance)) {
if (compare(a.elements[2], b.elements[2], p_tolerance)) {
return true;
}
}
}
return false;
}
case Variant::VECTOR3: {
return compare(Vector3(p_first), Vector3(p_second), p_tolerance);
}
case Variant::QUATERNION: {
const Quaternion a = p_first;
const Quaternion b = p_second;
const Quaternion r(a - b); // Element wise subtraction.
return (r.x * r.x + r.y * r.y + r.z * r.z + r.w * r.w) <= (p_tolerance * p_tolerance);
}
case Variant::PLANE: {
const Plane a(p_first);
const Plane b(p_second);
if (Math::is_equal_approx(a.d, b.d, p_tolerance)) {
if (compare(a.normal, b.normal, p_tolerance)) {
return true;
}
}
return false;
}
case Variant::AABB: {
const AABB a(p_first);
const AABB b(p_second);
if (compare(a.position, b.position, p_tolerance)) {
if (compare(a.size, b.size, p_tolerance)) {
return true;
}
}
return false;
}
case Variant::BASIS: {
const Basis a = p_first;
const Basis b = p_second;
if (compare(a.elements[0], b.elements[0], p_tolerance)) {
if (compare(a.elements[1], b.elements[1], p_tolerance)) {
if (compare(a.elements[2], b.elements[2], p_tolerance)) {
return true;
}
}
}
return false;
}
case Variant::TRANSFORM3D: {
const Transform3D a = p_first;
const Transform3D b = p_second;
if (compare(a.origin, b.origin, p_tolerance)) {
if (compare(a.basis.elements[0], b.basis.elements[0], p_tolerance)) {
if (compare(a.basis.elements[1], b.basis.elements[1], p_tolerance)) {
if (compare(a.basis.elements[2], b.basis.elements[2], p_tolerance)) {
return true;
}
}
}
}
return false;
}
case Variant::ARRAY: {
const Array a = p_first;
const Array b = p_second;
if (a.size() != b.size()) {
return false;
}
for (int i = 0; i < a.size(); i += 1) {
if (compare(a[i], b[i], p_tolerance) == false) {
return false;
}
}
return true;
}
case Variant::DICTIONARY: {
const Dictionary a = p_first;
const Dictionary b = p_second;
if (a.size() != b.size()) {
return false;
}
List<Variant> l;
a.get_key_list(&l);
for (const List<Variant>::Element *key = l.front(); key; key = key->next()) {
if (b.has(key->get()) == false) {
return false;
}
if (compare(
a.get(key->get(), Variant()),
b.get(key->get(), Variant()),
p_tolerance) == false) {
return false;
}
}
return true;
}
default:
return p_first == p_second;
}
}
bool SceneSynchronizer::is_server() const {
return synchronizer_type == SYNCHRONIZER_TYPE_SERVER;
}
bool SceneSynchronizer::is_client() const {
return synchronizer_type == SYNCHRONIZER_TYPE_CLIENT;
}
bool SceneSynchronizer::is_no_network() const {
return synchronizer_type == SYNCHRONIZER_TYPE_NONETWORK;
}
bool SceneSynchronizer::is_networked() const {
return is_client() || is_server();
}
#ifdef DEBUG_ENABLED
void SceneSynchronizer::validate_nodes() {
LocalVector<NetUtility::NodeData *> null_objects;
null_objects.reserve(node_data.size());
for (uint32_t i = 0; i < node_data.size(); i += 1) {
if (ObjectDB::get_instance(node_data[i]->instance_id) == nullptr) {
// Mark for removal.
null_objects.push_back(node_data[i]);
}
}
// Removes the invalidated `NodeData`.
if (null_objects.size()) {
NET_DEBUG_ERR("At least one node has been removed from the tree without the SceneSynchronizer noticing. This shouldn't happen.");
for (uint32_t i = 0; i < null_objects.size(); i += 1) {
drop_node_data(null_objects[i]);
}
}
}
#endif
void SceneSynchronizer::purge_node_dependencies() {
if (is_client() == false) {
return;
}
// Clear the controller dependencies.
ClientSynchronizer *client_sync = static_cast<ClientSynchronizer *>(synchronizer);
for (uint32_t i = 0; i < node_data_controllers.size(); i += 1) {
for (
int d = 0;
d < int(node_data_controllers[i]->dependency_nodes_end.size());
d += 1) {
if (node_data_controllers[i]->dependency_nodes_end[d] < client_sync->last_checked_input) {
// This controller dependency can be cleared because the server
// snapshot check has
node_data_controllers[i]->dependency_nodes.remove_unordered(d);
node_data_controllers[i]->dependency_nodes_end.remove_unordered(d);
d -= 1;
}
}
}
}
void SceneSynchronizer::expand_organized_node_data_vector(uint32_t p_size) {
const uint32_t from = organized_node_data.size();
organized_node_data.resize(from + p_size);
memset(organized_node_data.ptr() + from, 0, sizeof(void *) * p_size);
}
NetUtility::NodeData *SceneSynchronizer::find_node_data(const Node *p_node) {
for (uint32_t i = 0; i < node_data.size(); i += 1) {
if (node_data[i] == nullptr) {
continue;
}
if (node_data[i]->instance_id == p_node->get_instance_id()) {
return node_data[i];
}
}
return nullptr;
}
const NetUtility::NodeData *SceneSynchronizer::find_node_data(const Node *p_node) const {
for (uint32_t i = 0; i < node_data.size(); i += 1) {
if (node_data[i] == nullptr) {
continue;
}
if (node_data[i]->instance_id == p_node->get_instance_id()) {
return node_data[i];
}
}
return nullptr;
}
NetUtility::NodeData *SceneSynchronizer::get_node_data(NetNodeId p_id) {
ERR_FAIL_UNSIGNED_INDEX_V(p_id, organized_node_data.size(), nullptr);
return organized_node_data[p_id];
}
const NetUtility::NodeData *SceneSynchronizer::get_node_data(NetNodeId p_id) const {
ERR_FAIL_UNSIGNED_INDEX_V(p_id, organized_node_data.size(), nullptr);
return organized_node_data[p_id];
}
NetNodeId SceneSynchronizer::get_biggest_node_id() const {
return organized_node_data.size() == 0 ? UINT32_MAX : organized_node_data.size() - 1;
}
void SceneSynchronizer::reset_controllers() {
for (uint32_t i = 0; i < node_data_controllers.size(); i += 1) {
reset_controller(node_data_controllers[i]);
}
}
void SceneSynchronizer::reset_controller(NetUtility::NodeData *p_controller_nd) {
#ifdef DEBUG_ENABLED
// This can't happen because the callers make sure the `NodeData` is a
// controller.
CRASH_COND(p_controller_nd->is_controller == false);
#endif
NetworkedController *controller = static_cast<NetworkedController *>(p_controller_nd->node);
// Reset the controller type.
if (controller->controller != nullptr) {
memdelete(controller->controller);
controller->controller = nullptr;
controller->controller_type = NetworkedController::CONTROLLER_TYPE_NULL;
controller->set_physics_process_internal(false);
}
if (get_tree() == nullptr) {
if (synchronizer) {
synchronizer->on_controller_reset(p_controller_nd);
}
// Nothing to do.
return;
}
if (get_tree()->get_multiplayer()->get_network_peer().is_null()) {
controller->controller_type = NetworkedController::CONTROLLER_TYPE_NONETWORK;
controller->controller = memnew(NoNetController(controller));
} else if (get_tree()->get_multiplayer()->is_network_server()) {
controller->controller_type = NetworkedController::CONTROLLER_TYPE_SERVER;
controller->controller = memnew(ServerController(controller, controller->get_network_traced_frames()));
} else if (controller->is_network_master()) {
controller->controller_type = NetworkedController::CONTROLLER_TYPE_PLAYER;
controller->controller = memnew(PlayerController(controller));
} else {
controller->controller_type = NetworkedController::CONTROLLER_TYPE_DOLL;
controller->controller = memnew(DollController(controller));
controller->set_physics_process_internal(true);
}
dirty_peers();
controller->controller->ready();
if (synchronizer) {
synchronizer->on_controller_reset(p_controller_nd);
}
}
void SceneSynchronizer::process() {
#ifdef DEBUG_ENABLED
validate_nodes();
// Never triggered because this function is called by `PHYSICS_PROCESS`,
// notification that is emitted only when the node is in the tree.
// When the node is in the tree, there is no way that the `synchronizer` is
// null.
CRASH_COND(synchronizer == nullptr);
#endif
synchronizer->process();
purge_node_dependencies();
}
void SceneSynchronizer::pull_node_changes(NetUtility::NodeData *p_node_data) {
Node *node = p_node_data->node;
for (NetVarId var_id = 0; var_id < p_node_data->vars.size(); var_id += 1) {
if (p_node_data->vars[var_id].enabled == false) {
continue;
}
const Variant old_val = p_node_data->vars[var_id].var.value;
const Variant new_val = node->get(p_node_data->vars[var_id].var.name);
if (!compare(old_val, new_val)) {
p_node_data->vars[var_id].var.value = new_val.duplicate(true);
change_event_add(
p_node_data,
var_id,
old_val);
}
}
}
Synchronizer::Synchronizer(SceneSynchronizer *p_node) :
scene_synchronizer(p_node) {
}
NoNetSynchronizer::NoNetSynchronizer(SceneSynchronizer *p_node) :
Synchronizer(p_node) {}
void NoNetSynchronizer::clear() {
enabled = true;
}
void NoNetSynchronizer::process() {
if (unlikely(enabled == false)) {
return;
}
const real_t delta = scene_synchronizer->get_physics_process_delta_time();
// Process the scene
for (uint32_t i = 0; i < scene_synchronizer->node_data.size(); i += 1) {
NetUtility::NodeData *nd = scene_synchronizer->node_data[i];
nd->process(delta);
}
// Process the controllers_node_data
for (uint32_t i = 0; i < scene_synchronizer->node_data_controllers.size(); i += 1) {
NetUtility::NodeData *nd = scene_synchronizer->node_data_controllers[i];
static_cast<NetworkedController *>(nd->node)->get_nonet_controller()->process(delta);
}
// Pull the changes.
scene_synchronizer->change_events_begin(NetEventFlag::CHANGE);
for (uint32_t i = 0; i < scene_synchronizer->node_data.size(); i += 1) {
NetUtility::NodeData *nd = scene_synchronizer->node_data[i];
scene_synchronizer->pull_node_changes(nd);
}
scene_synchronizer->change_events_flush();
}
void NoNetSynchronizer::set_enabled(bool p_enabled) {
if (enabled == p_enabled) {
// Nothing to do.
return;
}
enabled = p_enabled;
if (enabled) {
scene_synchronizer->emit_signal("sync_started");
} else {
scene_synchronizer->emit_signal("sync_paused");
}
}
bool NoNetSynchronizer::is_enabled() const {
return enabled;
}
ServerSynchronizer::ServerSynchronizer(SceneSynchronizer *p_node) :
Synchronizer(p_node) {}
void ServerSynchronizer::clear() {
state_notifier_timer = 0.0;
// Release the internal memory.
changes.reset();
}
void ServerSynchronizer::process() {
scene_synchronizer->update_peers();
const real_t delta = scene_synchronizer->get_physics_process_delta_time();
// Process the scene
for (uint32_t i = 0; i < scene_synchronizer->node_data.size(); i += 1) {
NetUtility::NodeData *nd = scene_synchronizer->node_data[i];
nd->process(delta);
}
// Process the controllers_node_data
for (uint32_t i = 0; i < scene_synchronizer->node_data_controllers.size(); i += 1) {
NetUtility::NodeData *nd = scene_synchronizer->node_data_controllers[i];
static_cast<NetworkedController *>(nd->node)->get_server_controller()->process(delta);
}
// Pull the changes.
scene_synchronizer->change_events_begin(NetEventFlag::CHANGE);
for (uint32_t i = 0; i < scene_synchronizer->node_data.size(); i += 1) {
NetUtility::NodeData *nd = scene_synchronizer->node_data[i];
scene_synchronizer->pull_node_changes(nd);
}
scene_synchronizer->change_events_flush();
process_snapshot_notificator(delta);
}
void ServerSynchronizer::on_node_added(NetUtility::NodeData *p_node_data) {
#ifdef DEBUG_ENABLED
// Can't happen on server
CRASH_COND(scene_synchronizer->is_recovered());
// On server the ID is always known.
CRASH_COND(p_node_data->id == UINT32_MAX);
#endif
if (changes.size() <= p_node_data->id) {
changes.resize(p_node_data->id + 1);
}
changes[p_node_data->id].not_known_before = true;
}
void ServerSynchronizer::on_variable_added(NetUtility::NodeData *p_node_data, const StringName &p_var_name) {
#ifdef DEBUG_ENABLED
// Can't happen on server
CRASH_COND(scene_synchronizer->is_recovered());
// On server the ID is always known.
CRASH_COND(p_node_data->id == UINT32_MAX);
#endif
if (changes.size() <= p_node_data->id) {
changes.resize(p_node_data->id + 1);
}
changes[p_node_data->id].vars.insert(p_var_name);
changes[p_node_data->id].uknown_vars.insert(p_var_name);
}
void ServerSynchronizer::on_variable_changed(NetUtility::NodeData *p_node_data, NetVarId p_var_id, const Variant &p_old_value, int p_flag) {
#ifdef DEBUG_ENABLED
// Can't happen on server
CRASH_COND(scene_synchronizer->is_recovered());
// On server the ID is always known.
CRASH_COND(p_node_data->id == UINT32_MAX);
#endif
if (changes.size() <= p_node_data->id) {
changes.resize(p_node_data->id + 1);
}
changes[p_node_data->id].vars.insert(p_node_data->vars[p_var_id].var.name);
}
void ServerSynchronizer::process_snapshot_notificator(real_t p_delta) {
if (scene_synchronizer->peer_data.is_empty()) {
// No one is listening.
return;
}
// Notify the state if needed
state_notifier_timer += p_delta;
const bool notify_state = state_notifier_timer >= scene_synchronizer->get_server_notify_state_interval();
if (notify_state) {
state_notifier_timer = 0.0;
}
Vector<Variant> full_global_nodes_snapshot;
Vector<Variant> delta_global_nodes_snapshot;
for (
OAHashMap<int, NetUtility::PeerData>::Iterator peer_it = scene_synchronizer->peer_data.iter();
peer_it.valid;
peer_it = scene_synchronizer->peer_data.next_iter(peer_it)) {
if (unlikely(peer_it.value->controller_id == UINT32_MAX)) {
// This peer still does not have a `NetworkedController`.
continue;
}
if (unlikely(peer_it.value->enabled == false)) {
// This peer is disabled.
continue;
}
if (peer_it.value->force_notify_snapshot == false && notify_state == false) {
// Nothing to do.
continue;
}
peer_it.value->force_notify_snapshot = false;
NetUtility::NodeData *nd = scene_synchronizer->get_node_data(peer_it.value->controller_id);
// TODO well that's not really true. I may have peers that doesn't have controllers_node_data in a
// certain moment. Please improve this mechanism trying to just use the
// node->get_network_master() to get the peer.
ERR_CONTINUE_MSG(nd == nullptr, "This should never happen. Likely there is a bug, NedNodeId: " + itos(peer_it.value->controller_id));
ERR_CONTINUE_MSG(nd->is_controller == false, "[BUG] A controller il expected, The node " + nd->node->get_path() + " is submitted instead.");
NetworkedController *controller = static_cast<NetworkedController *>(nd->node);
Vector<Variant> snap;
if (peer_it.value->need_full_snapshot) {
peer_it.value->need_full_snapshot = false;
if (full_global_nodes_snapshot.size() == 0) {
full_global_nodes_snapshot = global_nodes_generate_snapshot(true);
}
snap = full_global_nodes_snapshot;
controller_generate_snapshot(nd, true, snap);
} else {
if (delta_global_nodes_snapshot.size() == 0) {
delta_global_nodes_snapshot = global_nodes_generate_snapshot(false);
}
snap = delta_global_nodes_snapshot;
controller_generate_snapshot(nd, false, snap);
}
controller->get_server_controller()->notify_send_state();
scene_synchronizer->rpc_id(*peer_it.key, SNAME("_rpc_send_state"), snap);
}
if (notify_state) {
// The state got notified, mark this as checkpoint so the next state
// will contains only the changed things.
changes.clear();
}
}
Vector<Variant> ServerSynchronizer::global_nodes_generate_snapshot(bool p_force_full_snapshot) const {
Vector<Variant> snapshot_data;
for (uint32_t i = 0; i < scene_synchronizer->node_data.size(); i += 1) {
const NetUtility::NodeData *node_data = scene_synchronizer->node_data[i];
if (node_data == nullptr) {
continue;
}
if (node_data->is_controller || node_data->controlled_by != nullptr) {
// Skip the controllers.
continue;
}
generate_snapshot_node_data(node_data, p_force_full_snapshot, snapshot_data);
}
return snapshot_data;
}
void ServerSynchronizer::controller_generate_snapshot(
const NetUtility::NodeData *p_node_data,
bool p_force_full_snapshot,
Vector<Variant> &r_snapshot_result) const {
CRASH_COND(p_node_data->is_controller == false);
generate_snapshot_node_data(
p_node_data,
p_force_full_snapshot,
r_snapshot_result);
for (uint32_t i = 0; i < p_node_data->controlled_nodes.size(); i += 1) {
generate_snapshot_node_data(
p_node_data->controlled_nodes[i],
p_force_full_snapshot,
r_snapshot_result);
}
}
void ServerSynchronizer::generate_snapshot_node_data(
const NetUtility::NodeData *p_node_data,
bool p_force_full_snapshot,
Vector<Variant> &r_snapshot_data) const {
// The packet data is an array that contains the informations to update the
// client snapshot.
//
// It's composed as follows:
// [NODE, VARIABLE, Value, VARIABLE, Value, VARIABLE, value, NIL,
// NODE, INPUT ID, VARIABLE, Value, VARIABLE, Value, NIL,
// NODE, VARIABLE, Value, VARIABLE, Value, NIL]
//
// Each node ends with a NIL, and the NODE and the VARIABLE are special:
// - NODE, can be an array of two variables [Net Node ID, NodePath] or directly
// a Node ID. Obviously the array is sent only the first time.
// - INPUT ID, this is optional and is used only when the node is a controller.
// - VARIABLE, can be an array with the ID and the variable name, or just
// the ID; similarly as is for the NODE the array is send only
// the first time.
if (p_node_data->node == nullptr || p_node_data->node->is_inside_tree() == false) {
return;
}
const Change *change = p_node_data->id >= changes.size() ? nullptr : changes.ptr() + p_node_data->id;
// Insert NODE DATA.
Variant snap_node_data;
if (p_force_full_snapshot || (change != nullptr && change->not_known_before)) {
Vector<Variant> _snap_node_data;
_snap_node_data.resize(2);
_snap_node_data.write[0] = p_node_data->id;
_snap_node_data.write[1] = p_node_data->node->get_path();
snap_node_data = _snap_node_data;
} else {
// This node is already known on clients, just set the node ID.
snap_node_data = p_node_data->id;
}
const bool node_has_changes = p_force_full_snapshot || (change != nullptr && change->vars.is_empty() == false);
if (p_node_data->is_controller) {
NetworkedController *controller = static_cast<NetworkedController *>(p_node_data->node);
// TODO make sure to skip un-active controllers_node_data.
// This may no more needed, since the interpolator got integrated and
// the only time the controller is sync is when it's needed.
if (likely(controller->get_current_input_id() != UINT32_MAX)) {
// This is a controller, always sync it.
r_snapshot_data.push_back(snap_node_data);
r_snapshot_data.push_back(controller->get_current_input_id());
} else {
// The first ID id is not yet arrived, so just skip this node.
return;
}
} else {
if (node_has_changes) {
r_snapshot_data.push_back(snap_node_data);
} else {
// It has no changes, skip this node.
return;
}
}
if (node_has_changes) {
// Insert the node variables.
for (uint32_t i = 0; i < p_node_data->vars.size(); i += 1) {
const NetUtility::VarData &var = p_node_data->vars[i];
if (var.enabled == false) {
continue;
}
if (p_force_full_snapshot == false && change->vars.has(var.var.name) == false) {
// This is a delta snapshot and this variable is the same as
// before. Skip it.
continue;
}
Variant var_info;
if (p_force_full_snapshot || change->uknown_vars.has(var.var.name)) {
Vector<Variant> _var_info;
_var_info.resize(2);
_var_info.write[0] = var.id;
_var_info.write[1] = var.var.name;
var_info = _var_info;
} else {
var_info = var.id;
}
r_snapshot_data.push_back(var_info);
r_snapshot_data.push_back(var.var.value);
}
}
// Insert NIL.
r_snapshot_data.push_back(Variant());
}
ClientSynchronizer::ClientSynchronizer(SceneSynchronizer *p_node) :
Synchronizer(p_node) {
clear();
}
void ClientSynchronizer::clear() {
player_controller_node_data = nullptr;
node_paths.clear();
last_received_snapshot.input_id = UINT32_MAX;
last_received_snapshot.node_vars.clear();
client_snapshots.clear();
server_snapshots.clear();
last_checked_input = 0;
enabled = true;
need_full_snapshot_notified = false;
}
void ClientSynchronizer::process() {
if (unlikely(player_controller_node_data == nullptr || enabled == false)) {
// No player controller or disabled so nothing to do.
return;
}
const real_t delta = scene_synchronizer->get_physics_process_delta_time();
const real_t physics_ticks_per_second = Engine::get_singleton()->get_physics_ticks_per_second();
#ifdef DEBUG_ENABLED
if (unlikely(Engine::get_singleton()->get_frames_per_second() < physics_ticks_per_second)) {
WARN_PRINT("Current FPS is " + itos(Engine::get_singleton()->get_frames_per_second()) + ", but the minimum required FPS is " + itos(physics_ticks_per_second) + ", the client is unable to generate enough inputs for the server.");
}
#endif
NetworkedController *controller = static_cast<NetworkedController *>(player_controller_node_data->node);
PlayerController *player_controller = controller->get_player_controller();
// Reset this here, so even when `sub_ticks` is zero (and it's not
// updated due to process is not called), we can still have the corect
// data.
controller->player_set_has_new_input(false);
// Due to some lag we may want to speed up the input_packet
// generation, for this reason here I'm performing a sub tick.
//
// keep in mind that we are just pretending that the time
// is advancing faster, for this reason we are still using
// `delta` to step the controllers_node_data.
//
// The dolls may want to speed up too, so to consume the inputs faster
// and get back in time with the server.
int sub_ticks = player_controller->calculates_sub_ticks(delta, physics_ticks_per_second);
while (sub_ticks > 0) {
// Process the scene.
for (uint32_t i = 0; i < scene_synchronizer->node_data.size(); i += 1) {
NetUtility::NodeData *nd = scene_synchronizer->node_data[i];
nd->process(delta);
}
// Process the player controllers_node_data.
player_controller->process(delta);
// Pull the changes.
scene_synchronizer->change_events_begin(NetEventFlag::CHANGE);
for (NetNodeId i = 0; i < scene_synchronizer->node_data.size(); i += 1) {
NetUtility::NodeData *nd = scene_synchronizer->node_data[i];
scene_synchronizer->pull_node_changes(nd);
}
scene_synchronizer->change_events_flush();
if (controller->player_has_new_input()) {
store_snapshot();
}
sub_ticks -= 1;
}
process_controllers_recovery(delta);
// Now trigger the END_SYNC event.
scene_synchronizer->change_events_begin(NetEventFlag::END_SYNC);
for (const Set<EndSyncEvent>::Element *e = sync_end_events.front();
e != nullptr;
e = e->next()) {
// Check if the values between the variables before the sync and the
// current one are different.
if (scene_synchronizer->compare(
e->get().node_data->vars[e->get().var_id].var.value,
e->get().old_value) == false) {
// Are different so we need to emit the `END_SYNC`.
scene_synchronizer->change_event_add(
e->get().node_data,
e->get().var_id,
e->get().old_value);
}
}
sync_end_events.clear();
scene_synchronizer->change_events_flush();
}
void ClientSynchronizer::receive_snapshot(Variant p_snapshot) {
// The received snapshot is parsed and stored into the `last_received_snapshot`
// that contains always the last received snapshot.
// Later, the snapshot is stored into the server queue.
// In this way, we are free to pop snapshot from the queue without wondering
// about losing the data. Indeed the received snapshot is just and
// incremental update so the last received data is always needed to fully
// reconstruct it.
// Parse server snapshot.
const bool success = parse_snapshot(p_snapshot);
if (success == false) {
return;
}
// Finalize data.
store_controllers_snapshot(
last_received_snapshot,
server_snapshots);
}
void ClientSynchronizer::on_node_added(NetUtility::NodeData *p_node_data) {
}
void ClientSynchronizer::on_node_removed(NetUtility::NodeData *p_node_data) {
if (player_controller_node_data == p_node_data) {
player_controller_node_data = nullptr;
client_snapshots.clear();
}
}
void ClientSynchronizer::on_variable_changed(NetUtility::NodeData *p_node_data, NetVarId p_var_id, const Variant &p_old_value, int p_flag) {
if (p_flag & NetEventFlag::SYNC) {
sync_end_events.insert(
EndSyncEvent{
p_node_data,
p_var_id,
p_old_value });
}
}
void ClientSynchronizer::on_controller_reset(NetUtility::NodeData *p_node_data) {
#ifdef DEBUG_ENABLED
CRASH_COND(p_node_data->is_controller == false);
#endif
if (player_controller_node_data == p_node_data) {
// Reset the node_data.
player_controller_node_data = nullptr;
client_snapshots.clear();
}
if (static_cast<NetworkedController *>(p_node_data->node)->is_player_controller()) {
if (player_controller_node_data != nullptr) {
NET_DEBUG_ERR("Only one player controller is supported, at the moment. Make sure this is the case.");
} else {
// Set this player controller as active.
player_controller_node_data = p_node_data;
client_snapshots.clear();
}
}
}
void ClientSynchronizer::store_snapshot() {
NetworkedController *controller = static_cast<NetworkedController *>(player_controller_node_data->node);
#ifdef DEBUG_ENABLED
if (unlikely(client_snapshots.size() > 0 && controller->get_current_input_id() <= client_snapshots.back().input_id)) {
CRASH_NOW_MSG("[FATAL] During snapshot creation, for controller " + controller->get_path() + ", was found an ID for an older snapshots. New input ID: " + itos(controller->get_current_input_id()) + " Last saved snapshot input ID: " + itos(client_snapshots.back().input_id) + ".");
}
#endif
client_snapshots.push_back(NetUtility::Snapshot());
NetUtility::Snapshot &snap = client_snapshots.back();
snap.input_id = controller->get_current_input_id();
snap.node_vars.resize(scene_synchronizer->organized_node_data.size());
// Store the nodes state and skip anything is related to the other
// controllers.
for (uint32_t i = 0; i < scene_synchronizer->organized_node_data.size(); i += 1) {
const NetUtility::NodeData *node_data = scene_synchronizer->organized_node_data[i];
if (node_data == nullptr) {
// Nothing to do.
continue;
}
if ((node_data->is_controller || node_data->controlled_by != nullptr) &&
(node_data != player_controller_node_data && node_data->controlled_by != player_controller_node_data)) {
// Ignore this controller.
continue;
}
if (node_data->id >= uint32_t(snap.node_vars.size())) {
// Make sure this ID is valid.
ERR_FAIL_COND_MSG(node_data->id != UINT32_MAX, "[BUG] It's not expected that the client has a node with the NetNodeId (" + itos(node_data->id) + ") bigger than the registered node count: " + itos(snap.node_vars.size()));
// Skip this node
continue;
}
Vector<NetUtility::Var> *snap_node_vars = snap.node_vars.ptrw() + node_data->id;
snap_node_vars->resize(node_data->vars.size());
NetUtility::Var *vars = snap_node_vars->ptrw();
for (uint32_t v = 0; v < node_data->vars.size(); v += 1) {
if (node_data->vars[v].enabled) {
vars[v] = node_data->vars[v].var;
} else {
vars[v].name = StringName();
}
}
}
}
void ClientSynchronizer::store_controllers_snapshot(
const NetUtility::Snapshot &p_snapshot,
std::deque<NetUtility::Snapshot> &r_snapshot_storage) {
// Put the parsed snapshot into the queue.
if (p_snapshot.input_id == UINT32_MAX) {
// The snapshot doesn't have any info for this controller; Skip it.
return;
}
if (r_snapshot_storage.empty() == false) {
// Make sure the snapshots are stored in order.
const uint32_t last_stored_input_id = r_snapshot_storage.back().input_id;
if (p_snapshot.input_id == last_stored_input_id) {
// Update the snapshot.
r_snapshot_storage.back() = p_snapshot;
return;
} else {
ERR_FAIL_COND_MSG(p_snapshot.input_id < last_stored_input_id, "This snapshot (with ID: " + itos(p_snapshot.input_id) + ") is not expected because the last stored id is: " + itos(last_stored_input_id));
}
}
r_snapshot_storage.push_back(p_snapshot);
}
// TODO make this function much simpler.
void ClientSynchronizer::process_controllers_recovery(real_t p_delta) {
// The client is responsible to recover only its local controller, while all
// the other controllers_node_data (dolls) have their state interpolated. There is
// no need to check the correctness of the doll state nor the needs to
// rewind those.
//
// The scene, (global nodes), are always in sync with the reference frame
// of the client.
NetworkedController *controller = static_cast<NetworkedController *>(player_controller_node_data->node);
PlayerController *player_controller = controller->get_player_controller();
// --- Phase one: find the snapshot to check. ---
if (server_snapshots.empty()) {
// No snapshots to recover for this controller. Nothing to do.
return;
}
#ifdef DEBUG_ENABLED
if (client_snapshots.empty() == false) {
// The SceneSynchronizer and the PlayerController are always in sync.
CRASH_COND_MSG(client_snapshots.back().input_id != player_controller->last_known_input(), "This should not be possible: snapshot input: " + itos(client_snapshots.back().input_id) + " last_know_input: " + itos(player_controller->last_known_input()));
}
#endif
// Find the best recoverable input_id.
uint32_t checkable_input_id = UINT32_MAX;
// Find the best snapshot to recover from the one already
// processed.
if (client_snapshots.empty() == false) {
for (
auto s_snap = server_snapshots.rbegin();
checkable_input_id == UINT32_MAX && s_snap != server_snapshots.rend();
++s_snap) {
for (auto c_snap = client_snapshots.begin(); c_snap != client_snapshots.end(); ++c_snap) {
if (c_snap->input_id == s_snap->input_id) {
// Server snapshot also found on client, can be checked.
checkable_input_id = c_snap->input_id;
break;
}
}
}
} else {
// No client input, this happens when the stream is paused.
process_paused_controller_recovery(p_delta);
return;
}
if (checkable_input_id == UINT32_MAX) {
// No snapshot found, nothing to do.
return;
}
#ifdef DEBUG_ENABLED
// Unreachable cause the above check
CRASH_COND(server_snapshots.empty());
CRASH_COND(client_snapshots.empty());
#endif
// Drop all the old server snapshots until the one that we need.
while (server_snapshots.front().input_id < checkable_input_id) {
server_snapshots.pop_front();
}
// Drop all the old client snapshots until the one that we need.
while (client_snapshots.front().input_id < checkable_input_id) {
client_snapshots.pop_front();
}
#ifdef DEBUG_ENABLED
// These are unreachable at this point.
CRASH_COND(server_snapshots.empty());
CRASH_COND(server_snapshots.front().input_id != checkable_input_id);
// This is unreachable, because we store all the client shapshots
// each time a new input is processed. Since the `checkable_input_id`
// is taken by reading the processed doll inputs, it's guaranteed
// that here the snapshot exists.
CRASH_COND(client_snapshots.empty());
CRASH_COND(client_snapshots.front().input_id != checkable_input_id);
#endif
// --- Phase two: compare the server snapshot with the client snapshot. ---
bool need_recover = false;
bool recover_controller = false;
LocalVector<NetUtility::NodeData *> nodes_to_recover;
LocalVector<NetUtility::PostponedRecover> postponed_recover;
nodes_to_recover.reserve(server_snapshots.front().node_vars.size());
for (uint32_t net_node_id = 0; net_node_id < uint32_t(server_snapshots.front().node_vars.size()); net_node_id += 1) {
NetUtility::NodeData *rew_node_data = scene_synchronizer->get_node_data(net_node_id);
if (rew_node_data == nullptr || rew_node_data->sync_enabled == false) {
continue;
}
bool recover_this_node = false;
if (net_node_id >= uint32_t(client_snapshots.front().node_vars.size())) {
NET_DEBUG_PRINT("Rewind is needed because the client snapshot doesn't contain this node: " + rew_node_data->node->get_path());
recover_this_node = true;
} else {
NetUtility::PostponedRecover rec;
const bool different = compare_vars(
rew_node_data,
server_snapshots.front().node_vars[net_node_id],
client_snapshots.front().node_vars[net_node_id],
rec.vars);
if (different) {
NET_DEBUG_PRINT("Rewind is needed because the node on client is different: " + rew_node_data->node->get_path());
recover_this_node = true;
} else if (rec.vars.size() > 0) {
rec.node_data = rew_node_data;
postponed_recover.push_back(rec);
}
}
if (recover_this_node) {
need_recover = true;
if (rew_node_data->controlled_by != nullptr ||
rew_node_data->is_controller ||
player_controller_node_data->dependency_nodes.find(rew_node_data) != -1) {
// Controller node.
recover_controller = true;
} else {
nodes_to_recover.push_back(rew_node_data);
}
}
}
// Popout the client snapshot.
client_snapshots.pop_front();
// --- Phase three: recover and reply. ---
if (need_recover) {
NET_DEBUG_PRINT("Recover input: " + itos(checkable_input_id) + " - Last input: " + itos(player_controller->get_stored_input_id(-1)));
if (recover_controller) {
// Put the controlled and the controllers_node_data into the nodes to
// rewind.
// Note, the controller stuffs are added here to ensure that if the
// controller need a recover, all its nodes are added; no matter
// at which point the difference is found.
nodes_to_recover.reserve(
nodes_to_recover.size() +
player_controller_node_data->controlled_nodes.size() +
player_controller_node_data->dependency_nodes.size() +
1);
nodes_to_recover.push_back(player_controller_node_data);
for (
uint32_t y = 0;
y < player_controller_node_data->controlled_nodes.size();
y += 1) {
nodes_to_recover.push_back(player_controller_node_data->controlled_nodes[y]);
}
for (
uint32_t y = 0;
y < player_controller_node_data->dependency_nodes.size();
y += 1) {
nodes_to_recover.push_back(player_controller_node_data->dependency_nodes[y]);
}
}
// Apply the server snapshot so to go back in time till that moment,
// so to be able to correctly reply the movements.
scene_synchronizer->change_events_begin(NetEventFlag::SYNC_RECOVER | NetEventFlag::SYNC_RESET);
for (uint32_t i = 0; i < nodes_to_recover.size(); i += 1) {
if (nodes_to_recover[i]->id >= uint32_t(server_snapshots.front().node_vars.size())) {
NET_DEBUG_WARN("The node: " + nodes_to_recover[i]->node->get_path() + " was not found on the server snapshot, this is not supposed to happen a lot.");
continue;
}
if (nodes_to_recover[i]->sync_enabled == false) {
// Don't sync this node.
// This check is also here, because the `recover_controller`
// mechanism, may have insert a no sync node.
// The check is here because I feel it more clear, here.
continue;
}
#ifdef DEBUG_ENABLED
// The parser make sure to properly initialize the snapshot variable
// array size. So the following condition is always `false`.
CRASH_COND(uint32_t(server_snapshots.front().node_vars[nodes_to_recover[i]->id].size()) != nodes_to_recover[i]->vars.size());
#endif
Node *node = nodes_to_recover[i]->node;
const Vector<NetUtility::Var> s_vars = server_snapshots.front().node_vars[nodes_to_recover[i]->id];
const NetUtility::Var *s_vars_ptr = s_vars.ptr();
NET_DEBUG_PRINT("Full reset node: " + node->get_path());
for (int v = 0; v < s_vars.size(); v += 1) {
if (s_vars_ptr[v].name == StringName()) {
// This variable was not set, skip it.
continue;
}
const Variant current_val = nodes_to_recover[i]->vars[v].var.value;
nodes_to_recover[i]->vars[v].var.value = s_vars_ptr[v].value.duplicate(true);
node->set(s_vars_ptr[v].name, s_vars_ptr[v].value);
NET_DEBUG_PRINT(" |- Variable: " + s_vars_ptr[v].name + " New value: " + s_vars_ptr[v].value);
scene_synchronizer->change_event_add(
nodes_to_recover[i],
v,
current_val);
}
}
scene_synchronizer->change_events_flush();
// Rewind phase.
const int remaining_inputs = player_controller->notify_input_checked(checkable_input_id);
#ifdef DEBUG_ENABLED
// Unreachable because the SceneSynchronizer and the PlayerController
// have the same stored data at this point.
CRASH_COND(client_snapshots.size() != size_t(remaining_inputs));
#endif
#ifdef DEBUG_ENABLED
// Used to double check all the instants have been processed.
bool has_next = false;
#endif
for (int i = 0; i < remaining_inputs; i += 1) {
scene_synchronizer->change_events_begin(NetEventFlag::SYNC_RECOVER | NetEventFlag::SYNC_REWIND);
// Step 1 -- Process the scene nodes.
for (uint32_t r = 0; r < nodes_to_recover.size(); r += 1) {
if (nodes_to_recover[r]->sync_enabled == false) {
// This node is not sync.
continue;
}
nodes_to_recover[r]->process(p_delta);
#ifdef DEBUG_ENABLED
if (nodes_to_recover[r]->functions.size()) {
NET_DEBUG_PRINT("Rewind, processed node: " + nodes_to_recover[r]->node->get_path());
}
#endif
}
// Step 2 -- Process the controller.
if (recover_controller && player_controller_node_data->sync_enabled) {
#ifdef DEBUG_ENABLED
has_next =
#endif
controller->process_instant(i, p_delta);
NET_DEBUG_PRINT("Rewind, processed controller: " + controller->get_path());
}
// Step 3 -- Pull node changes and Update snapshots.
for (uint32_t r = 0; r < nodes_to_recover.size(); r += 1) {
if (nodes_to_recover[r]->sync_enabled == false) {
// This node is not sync.
continue;
}
// Pull changes
scene_synchronizer->pull_node_changes(nodes_to_recover[r]);
// Update client snapshot.
if (uint32_t(client_snapshots[i].node_vars.size()) <= nodes_to_recover[r]->id) {
client_snapshots[i].node_vars.resize(nodes_to_recover[r]->id + 1);
}
Vector<NetUtility::Var> *snap_node_vars = client_snapshots[i].node_vars.ptrw() + nodes_to_recover[r]->id;
snap_node_vars->resize(nodes_to_recover[r]->vars.size());
NetUtility::Var *vars = snap_node_vars->ptrw();
for (uint32_t v = 0; v < nodes_to_recover[r]->vars.size(); v += 1) {
vars[v] = nodes_to_recover[r]->vars[v].var;
}
}
scene_synchronizer->change_events_flush();
}
#ifdef DEBUG_ENABLED
// Unreachable because the above loop consume all instants.
CRASH_COND(has_next);
#endif
} else {
// Apply found differences without rewind.
scene_synchronizer->change_events_begin(NetEventFlag::SYNC_RECOVER);
for (uint32_t i = 0; i < postponed_recover.size(); i += 1) {
NetUtility::NodeData *rew_node_data = postponed_recover[i].node_data;
if (rew_node_data->sync_enabled == false) {
// This node sync is disabled.
continue;
}
Node *node = rew_node_data->node;
const NetUtility::Var *vars_ptr = postponed_recover[i].vars.ptr();
NET_DEBUG_PRINT("[Snapshot partial reset] Node: " + node->get_path());
// Set the value on the synchronizer too.
for (int v = 0; v < postponed_recover[i].vars.size(); v += 1) {
// We need to search it because the postponed recovered is not
// aligned.
// TODO This array is generated few lines above.
// Can we store the ID too, so to avoid this search????
const int rew_var_index = rew_node_data->vars.find(vars_ptr[v].name);
// Unreachable, because when the snapshot is received the
// algorithm make sure the `scene_synchronizer` is traking the
// variable.
CRASH_COND(rew_var_index <= -1);
const Variant old_val = rew_node_data->vars[rew_var_index].var.value;
rew_node_data->vars[rew_var_index].var.value = vars_ptr[v].value.duplicate(true);
node->set(vars_ptr[v].name, vars_ptr[v].value);
NET_DEBUG_PRINT(" |- Variable: " + vars_ptr[v].name + "; old value: " + old_val + " new value: " + vars_ptr[v].value);
scene_synchronizer->change_event_add(
rew_node_data,
rew_var_index,
old_val);
}
// Update the last client snapshot.
if (client_snapshots.empty() == false) {
if (uint32_t(client_snapshots.back().node_vars.size()) <= rew_node_data->id) {
client_snapshots.back().node_vars.resize(rew_node_data->id + 1);
}
Vector<NetUtility::Var> *snap_node_vars = client_snapshots.back().node_vars.ptrw() + rew_node_data->id;
snap_node_vars->resize(rew_node_data->vars.size());
NetUtility::Var *vars = snap_node_vars->ptrw();
for (uint32_t v = 0; v < rew_node_data->vars.size(); v += 1) {
vars[v] = rew_node_data->vars[v].var;
}
}
}
scene_synchronizer->change_events_flush();
player_controller->notify_input_checked(checkable_input_id);
}
// Popout the server snapshot.
server_snapshots.pop_front();
last_checked_input = checkable_input_id;
}
void ClientSynchronizer::process_paused_controller_recovery(real_t p_delta) {
#ifdef DEBUG_ENABLED
CRASH_COND(server_snapshots.empty());
CRASH_COND(client_snapshots.empty() == false);
#endif
// Drop the snapshots till the newest.
while (server_snapshots.size() != 1) {
server_snapshots.pop_front();
}
#ifdef DEBUG_ENABLED
CRASH_COND(server_snapshots.empty());
#endif
scene_synchronizer->change_events_begin(NetEventFlag::SYNC_RECOVER);
for (uint32_t net_node_id = 0; net_node_id < uint32_t(server_snapshots.front().node_vars.size()); net_node_id += 1) {
NetUtility::NodeData *rew_node_data = scene_synchronizer->get_node_data(net_node_id);
if (rew_node_data == nullptr || rew_node_data->sync_enabled == false) {
continue;
}
Node *node = rew_node_data->node;
const NetUtility::Var *snap_vars_ptr = server_snapshots.front().node_vars[net_node_id].ptr();
for (int var_id = 0; var_id < server_snapshots.front().node_vars[net_node_id].size(); var_id += 1) {
// Note: the snapshot variable array is ordered per var_id.
const Variant old_val = rew_node_data->vars[var_id].var.value;
if (!scene_synchronizer->compare(
old_val,
snap_vars_ptr[var_id].value)) {
// Different
rew_node_data->vars[var_id].var.value = snap_vars_ptr[var_id].value;
node->set(snap_vars_ptr[var_id].name, snap_vars_ptr[var_id].value);
NET_DEBUG_PRINT("[Snapshot paused controller] Node: " + node->get_path());
NET_DEBUG_PRINT(" |- Variable: " + snap_vars_ptr[var_id].name + "; value: " + snap_vars_ptr[var_id].value);
scene_synchronizer->change_event_add(
rew_node_data,
var_id,
old_val);
}
}
}
server_snapshots.pop_front();
scene_synchronizer->change_events_flush();
}
bool ClientSynchronizer::parse_sync_data(
Variant p_sync_data,
void *p_user_pointer,
void (*p_node_parse)(void *p_user_pointer, NetUtility::NodeData *p_node_data),
void (*p_controller_parse)(void *p_user_pointer, NetUtility::NodeData *p_node_data, uint32_t p_input_id),
void (*p_variable_parse)(void *p_user_pointer, NetUtility::NodeData *p_node_data, uint32_t p_var_id, const Variant &p_value)) {
// The sync data is an array that contains the scene informations.
// It's used for several things, for this reason this function allows to
// customize the parsing.
//
// The data is composed as follows:
// [NODE, VARIABLE, Value, VARIABLE, Value, VARIABLE, value, NIL,
// NODE, INPUT ID, VARIABLE, Value, VARIABLE, Value, NIL,
// NODE, VARIABLE, Value, VARIABLE, Value, NIL]
//
// Each node ends with a NIL, and the NODE and the VARIABLE are special:
// - NODE, can be an array of two variables [Node ID, NodePath] or directly
// a Node ID. Obviously the array is sent only the first time.
// - INPUT ID, this is optional and is used only when the node is a controller.
// - VARIABLE, can be an array with the ID and the variable name, or just
// the ID; similarly as is for the NODE the array is send only
// the first time.
if (p_sync_data.get_type() == Variant::NIL) {
// Nothing to do.
return true;
}
ERR_FAIL_COND_V(!p_sync_data.is_array(), false);
const Vector<Variant> raw_snapshot = p_sync_data;
const Variant *raw_snapshot_ptr = raw_snapshot.ptr();
NetUtility::NodeData *synchronizer_node_data = nullptr;
uint32_t var_id = UINT32_MAX;
for (int snap_data_index = 0; snap_data_index < raw_snapshot.size(); snap_data_index += 1) {
const Variant v = raw_snapshot_ptr[snap_data_index];
if (synchronizer_node_data == nullptr) {
// Node is null so we expect `v` has the node info.
bool skip_this_node = false;
Node *node = nullptr;
uint32_t net_node_id = UINT32_MAX;
NodePath node_path;
if (v.is_array()) {
// Node info are in verbose form, extract it.
const Vector<Variant> node_data = v;
ERR_FAIL_COND_V(node_data.size() != 2, false);
ERR_FAIL_COND_V_MSG(node_data[0].get_type() != Variant::INT, false, "This snapshot is corrupted.");
ERR_FAIL_COND_V_MSG(node_data[1].get_type() != Variant::NODE_PATH, false, "This snapshot is corrupted.");
net_node_id = node_data[0];
node_path = node_data[1];
// Associate the ID with the path.
node_paths.set(net_node_id, node_path);
} else if (v.get_type() == Variant::INT) {
// Node info are in short form.
net_node_id = v;
NetUtility::NodeData *nd = scene_synchronizer->get_node_data(net_node_id);
if (nd != nullptr) {
synchronizer_node_data = nd;
goto node_lookup_out;
}
} else {
// The arrived snapshot does't seems to be in the expected form.
ERR_FAIL_V_MSG(false, "This snapshot is corrupted. Now the node is expected, " + String(v) + " was submitted instead.");
}
if (synchronizer_node_data == nullptr) {
if (node_path.is_empty()) {
const NodePath *node_path_ptr = node_paths.lookup_ptr(net_node_id);
if (node_path_ptr == nullptr) {
// Was not possible lookup the node_path.
NET_DEBUG_WARN("The node with ID `" + itos(net_node_id) + "` is not know by this peer, this is not supposed to happen.");
notify_server_full_snapshot_is_needed();
skip_this_node = true;
goto node_lookup_check;
} else {
node_path = *node_path_ptr;
}
}
node = scene_synchronizer->get_tree()->get_root()->get_node(node_path);
if (node == nullptr) {
// The node doesn't exists.
NET_DEBUG_ERR("The node " + node_path + " still doesn't exist.");
skip_this_node = true;
goto node_lookup_check;
}
// Register this node, so to make sure the client is tracking it.
NetUtility::NodeData *nd = scene_synchronizer->register_node(node);
if (nd != nullptr) {
// Set the node ID.
scene_synchronizer->set_node_data_id(nd, net_node_id);
synchronizer_node_data = nd;
} else {
NET_DEBUG_ERR("[BUG] This node " + node->get_path() + " was not know on this client. Though, was not possible to register it.");
skip_this_node = true;
}
}
node_lookup_check:
if (skip_this_node || synchronizer_node_data == nullptr) {
// This node does't exist; skip it entirely.
for (snap_data_index += 1; snap_data_index < raw_snapshot.size(); snap_data_index += 1) {
if (raw_snapshot_ptr[snap_data_index].get_type() == Variant::NIL) {
break;
}
}
ERR_CONTINUE_MSG(true, "This NetNodeId " + itos(net_node_id) + " doesn't exist on this client.");
}
node_lookup_out:
#ifdef DEBUG_ENABLED
// At this point the ID is never UINT32_MAX thanks to the above
// mechanism.
CRASH_COND(synchronizer_node_data->id == UINT32_MAX);
#endif
p_node_parse(p_user_pointer, synchronizer_node_data);
if (synchronizer_node_data->is_controller) {
// This is a controller, so the next data is the input ID.
ERR_FAIL_COND_V(snap_data_index + 1 >= raw_snapshot.size(), false);
snap_data_index += 1;
const uint32_t input_id = raw_snapshot_ptr[snap_data_index];
ERR_FAIL_COND_V_MSG(input_id == UINT32_MAX, false, "The server is always able to send input_id, so this snapshot seems corrupted.");
p_controller_parse(p_user_pointer, synchronizer_node_data, input_id);
}
} else if (var_id == UINT32_MAX) {
// When the node is known and the `var_id` not, we expect a
// new variable or the end pf this node data.
if (v.get_type() == Variant::NIL) {
// NIL found, so this node is done.
synchronizer_node_data = nullptr;
continue;
}
// This is a new variable, so let's take the variable name.
if (v.is_array()) {
// The variable info are stored in verbose mode.
const Vector<Variant> var_data = v;
ERR_FAIL_COND_V(var_data.size() != 2, false);
ERR_FAIL_COND_V(var_data[0].get_type() != Variant::INT, false);
ERR_FAIL_COND_V(var_data[1].get_type() != Variant::STRING_NAME, false);
var_id = var_data[0];
StringName variable_name = var_data[1];
{
int64_t index = synchronizer_node_data->vars.find(variable_name);
if (index == -1) {
// The variable is not known locally, so just add it so
// to store the variable ID.
index = synchronizer_node_data->vars.size();
const bool skip_rewinding = false;
const bool enabled = false;
synchronizer_node_data->vars
.push_back(
NetUtility::VarData(
var_id,
variable_name,
Variant(),
skip_rewinding,
enabled));
NET_DEBUG_ERR("The variable " + variable_name + " for the node " + synchronizer_node_data->node->get_path() + " was not known on this client. This should never happen, make sure to register the same nodes on the client and server.");
}
if (index != var_id) {
if (synchronizer_node_data[var_id].id != UINT32_MAX) {
// It's not expected because if index is different to
// var_id, var_id should have a not yet initialized
// variable.
NET_DEBUG_ERR("This snapshot is corrupted. The var_id, at this point, must have a not yet init variable.");
notify_server_full_snapshot_is_needed();
return false;
}
// Make sure the variable is at the right index.
SWAP(synchronizer_node_data->vars[index], synchronizer_node_data->vars[var_id]);
}
}
// Make sure the ID is properly assigned.
synchronizer_node_data->vars[var_id].id = var_id;
} else if (v.get_type() == Variant::INT) {
// The variable is stored in the compact form.
var_id = v;
if (var_id >= synchronizer_node_data->vars.size() ||
synchronizer_node_data->vars[var_id].id == UINT32_MAX) {
NET_DEBUG_PRINT("The var with ID `" + itos(var_id) + "` is not know by this peer, this is not supposed to happen.");
notify_server_full_snapshot_is_needed();
// Skip the next data since it's the value of this variable.
snap_data_index += 1;
var_id = UINT32_MAX;
continue;
}
} else {
ERR_FAIL_V_MSG(false, "The snapshot received seems corrupted. The variable is expected but " + String(v) + " received instead.");
}
} else {
// The node is known, also the variable name is known, so the value
// is expected.
p_variable_parse(
p_user_pointer,
synchronizer_node_data,
var_id,
v);
// Just reset the variable name so we can continue iterate.
var_id = UINT32_MAX;
}
}
return true;
}
void ClientSynchronizer::set_enabled(bool p_enabled) {
if (enabled == p_enabled) {
// Nothing to do.
return;
}
if (p_enabled) {
// Postpone enabling when the next server snapshot is received.
want_to_enable = true;
} else {
// Disabling happens immediately.
enabled = false;
want_to_enable = false;
scene_synchronizer->emit_signal("sync_paused");
}
}
bool ClientSynchronizer::parse_snapshot(Variant p_snapshot) {
if (want_to_enable) {
if (enabled) {
NET_DEBUG_ERR("At this point the client is supposed to be disabled. This is a bug that must be solved.");
}
// The netwroking is disabled and we can re-enable it.
enabled = true;
want_to_enable = false;
scene_synchronizer->emit_signal("sync_started");
}
need_full_snapshot_notified = false;
last_received_snapshot.input_id = UINT32_MAX;
ERR_FAIL_COND_V_MSG(
player_controller_node_data == nullptr,
false,
"Is not possible to receive server snapshots if you are not tracking any NetController.");
struct ParseData {
NetUtility::Snapshot &snapshot;
NetUtility::NodeData *player_controller_node_data;
};
ParseData parse_data{
last_received_snapshot,
player_controller_node_data
};
const bool success = parse_sync_data(
p_snapshot,
&parse_data,
// Parse node:
[](void *p_user_pointer, NetUtility::NodeData *p_node_data) {
ParseData *pd = static_cast<ParseData *>(p_user_pointer);
// Make sure this node is part of the server node too.
if (uint32_t(pd->snapshot.node_vars.size()) <= p_node_data->id) {
pd->snapshot.node_vars.resize(p_node_data->id + 1);
}
// Make sure this snapshot has all the variables.
pd->snapshot.node_vars.write[p_node_data->id].resize(p_node_data->vars.size());
},
// Parse controller:
[](void *p_user_pointer, NetUtility::NodeData *p_node_data, uint32_t p_input_id) {
ParseData *pd = static_cast<ParseData *>(p_user_pointer);
if (p_node_data == pd->player_controller_node_data) {
// This is the main controller, store the input ID.
pd->snapshot.input_id = p_input_id;
}
},
// Parse variable:
[](void *p_user_pointer, NetUtility::NodeData *p_node_data, uint32_t p_var_id, const Variant &p_value) {
ParseData *pd = static_cast<ParseData *>(p_user_pointer);
#ifdef DEBUG_ENABLED
// This can't be triggered because th `Parse Node` function
// above make sure to create room for this array.
CRASH_COND(uint32_t(pd->snapshot.node_vars.size()) <= p_node_data->id);
#endif // ~DEBUG_ENABLED
if (unlikely(p_node_data->vars.size() != uint32_t(pd->snapshot.node_vars[p_node_data->id].size()))) {
// This mean the parser just added a new variable.
// Already notified by the parser.
pd->snapshot.node_vars.write[p_node_data->id].resize(p_node_data->vars.size());
}
pd->snapshot.node_vars.write[p_node_data->id].write[p_var_id].name = p_node_data->vars[p_var_id].var.name;
pd->snapshot.node_vars.write[p_node_data->id].write[p_var_id].value = p_value.duplicate(true);
});
if (success == false) {
NET_DEBUG_ERR("Snapshot:");
NET_DEBUG_ERR(p_snapshot);
return false;
}
// We espect that the player_controller is updated by this new snapshot,
// so make sure it's done so.
if (unlikely(last_received_snapshot.input_id == UINT32_MAX)) {
NET_DEBUG_PRINT("Recovery aborted, the player controller (" + player_controller_node_data->node->get_path() + ") was not part of the received snapshot, probably the server doesn't have important informations for this peer. NetUtility::Snapshot:");
NET_DEBUG_PRINT(p_snapshot);
return false;
} else {
// Success.
return true;
}
}
bool ClientSynchronizer::compare_vars(
const NetUtility::NodeData *p_synchronizer_node_data,
const Vector<NetUtility::Var> &p_server_vars,
const Vector<NetUtility::Var> &p_client_vars,
Vector<NetUtility::Var> &r_postponed_recover) {
const NetUtility::Var *s_vars = p_server_vars.ptr();
const NetUtility::Var *c_vars = p_client_vars.ptr();
#ifdef DEBUG_ENABLED
bool diff = false;
#endif
if (p_server_vars.size() != p_client_vars.size() ||
uint32_t(p_server_vars.size()) > p_synchronizer_node_data->vars.size()) {
NET_DEBUG_PRINT("Difference found: The server has a different variable count (" + itos(p_server_vars.size()) + ") compared to the client (" + itos(p_client_vars.size()) + ").");
NET_DEBUG_PRINT("Server variables:");
for (int i = 0; i < p_server_vars.size(); i += 1) {
NET_DEBUG_PRINT(" |- " + p_server_vars[i].name + ": " + p_server_vars[i].value);
}
NET_DEBUG_PRINT(" ------");
NET_DEBUG_PRINT("Client variables:");
for (int i = 0; i < p_client_vars.size(); i += 1) {
NET_DEBUG_PRINT(" |- " + p_client_vars[i].name + ": " + p_client_vars[i].value);
}
NET_DEBUG_PRINT(" ------");
return true;
}
for (uint32_t var_index = 0; var_index < uint32_t(p_server_vars.size()); var_index += 1) {
if (s_vars[var_index].name == StringName()) {
// This variable was not set, skip the check.
continue;
}
// Compare.
const bool different =
// Make sure this variable is set.
c_vars[var_index].name == StringName() ||
// Check if the value is different.
!scene_synchronizer->compare(
s_vars[var_index].value,
c_vars[var_index].value);
if (different) {
if (p_synchronizer_node_data->vars[var_index].skip_rewinding) {
// The vars are different, but this variable don't what to
// trigger a rewind.
r_postponed_recover.push_back(s_vars[var_index]);
} else {
// The vars are different.
NET_DEBUG_PRINT("Difference found on var #" + itos(var_index) + " " + p_synchronizer_node_data->vars[var_index].var.name + " " +
"Server value: `" + s_vars[var_index].value + "` " +
"Client value: `" + c_vars[var_index].value + "`. " +
"[Server name: `" + s_vars[var_index].name + "` " +
"Client name: `" + c_vars[var_index].name + "`].");
#ifdef DEBUG_ENABLED
diff = true;
#else
return true;
#endif
}
}
}
#ifdef DEBUG_ENABLED
return diff;
#else
// The vars are not different.
return false;
#endif
}
void ClientSynchronizer::notify_server_full_snapshot_is_needed() {
if (need_full_snapshot_notified) {
return;
}
// Notify the server that a full snapshot is needed.
need_full_snapshot_notified = true;
scene_synchronizer->rpc_id(1, SNAME("_rpc_notify_need_full_snapshot"));
}
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