/*************************************************************************/ /* multiplayer_api.cpp */ /*************************************************************************/ /* This file is part of: */ /* GODOT ENGINE */ /* https://godotengine.org */ /*************************************************************************/ /* Copyright (c) 2007-2020 Juan Linietsky, Ariel Manzur. */ /* Copyright (c) 2014-2020 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. */ /*************************************************************************/ #include "multiplayer_api.h" #include "core/io/marshalls.h" #include "scene/main/node.h" #include #ifdef DEBUG_ENABLED #include "core/os/os.h" #endif _FORCE_INLINE_ bool _should_call_local(MultiplayerAPI::RPCMode mode, bool is_master, bool &r_skip_rpc) { switch (mode) { case MultiplayerAPI::RPC_MODE_DISABLED: { // Do nothing. } break; case MultiplayerAPI::RPC_MODE_REMOTE: { // Do nothing also. Remote cannot produce a local call. } break; case MultiplayerAPI::RPC_MODE_MASTERSYNC: { if (is_master) r_skip_rpc = true; // I am the master, so skip remote call. [[fallthrough]]; } case MultiplayerAPI::RPC_MODE_REMOTESYNC: case MultiplayerAPI::RPC_MODE_PUPPETSYNC: { // Call it, sync always results in a local call. return true; } break; case MultiplayerAPI::RPC_MODE_MASTER: { if (is_master) r_skip_rpc = true; // I am the master, so skip remote call. return is_master; } break; case MultiplayerAPI::RPC_MODE_PUPPET: { return !is_master; } break; } return false; } _FORCE_INLINE_ bool _can_call_mode(Node *p_node, MultiplayerAPI::RPCMode mode, int p_remote_id) { switch (mode) { case MultiplayerAPI::RPC_MODE_DISABLED: { return false; } break; case MultiplayerAPI::RPC_MODE_REMOTE: case MultiplayerAPI::RPC_MODE_REMOTESYNC: { return true; } break; case MultiplayerAPI::RPC_MODE_MASTERSYNC: case MultiplayerAPI::RPC_MODE_MASTER: { return p_node->is_network_master(); } break; case MultiplayerAPI::RPC_MODE_PUPPETSYNC: case MultiplayerAPI::RPC_MODE_PUPPET: { return !p_node->is_network_master() && p_remote_id == p_node->get_network_master(); } break; } return false; } void MultiplayerAPI::poll() { if (!network_peer.is_valid() || network_peer->get_connection_status() == NetworkedMultiplayerPeer::CONNECTION_DISCONNECTED) return; network_peer->poll(); if (!network_peer.is_valid()) // It's possible that polling might have resulted in a disconnection, so check here. return; while (network_peer->get_available_packet_count()) { int sender = network_peer->get_packet_peer(); const uint8_t *packet; int len; Error err = network_peer->get_packet(&packet, len); if (err != OK) { ERR_PRINT("Error getting packet!"); break; // Something is wrong! } rpc_sender_id = sender; _process_packet(sender, packet, len); rpc_sender_id = 0; if (!network_peer.is_valid()) { break; // It's also possible that a packet or RPC caused a disconnection, so also check here. } } } void MultiplayerAPI::clear() { connected_peers.clear(); path_get_cache.clear(); path_send_cache.clear(); packet_cache.clear(); last_send_cache_id = 1; } void MultiplayerAPI::set_root_node(Node *p_node) { root_node = p_node; } void MultiplayerAPI::set_network_peer(const Ref &p_peer) { if (p_peer == network_peer) return; // Nothing to do ERR_FAIL_COND_MSG(p_peer.is_valid() && p_peer->get_connection_status() == NetworkedMultiplayerPeer::CONNECTION_DISCONNECTED, "Supplied NetworkedMultiplayerPeer must be connecting or connected."); if (network_peer.is_valid()) { network_peer->disconnect_compat("peer_connected", this, "_add_peer"); network_peer->disconnect_compat("peer_disconnected", this, "_del_peer"); network_peer->disconnect_compat("connection_succeeded", this, "_connected_to_server"); network_peer->disconnect_compat("connection_failed", this, "_connection_failed"); network_peer->disconnect_compat("server_disconnected", this, "_server_disconnected"); clear(); } network_peer = p_peer; if (network_peer.is_valid()) { network_peer->connect_compat("peer_connected", this, "_add_peer"); network_peer->connect_compat("peer_disconnected", this, "_del_peer"); network_peer->connect_compat("connection_succeeded", this, "_connected_to_server"); network_peer->connect_compat("connection_failed", this, "_connection_failed"); network_peer->connect_compat("server_disconnected", this, "_server_disconnected"); } } Ref MultiplayerAPI::get_network_peer() const { return network_peer; } void MultiplayerAPI::_process_packet(int p_from, const uint8_t *p_packet, int p_packet_len) { ERR_FAIL_COND_MSG(root_node == NULL, "Multiplayer root node was not initialized. If you are using custom multiplayer, remember to set the root node via MultiplayerAPI.set_root_node before using it."); ERR_FAIL_COND_MSG(p_packet_len < 1, "Invalid packet received. Size too small."); #ifdef DEBUG_ENABLED if (profiling) { bandwidth_incoming_data.write[bandwidth_incoming_pointer].timestamp = OS::get_singleton()->get_ticks_msec(); bandwidth_incoming_data.write[bandwidth_incoming_pointer].packet_size = p_packet_len; bandwidth_incoming_pointer = (bandwidth_incoming_pointer + 1) % bandwidth_incoming_data.size(); } #endif // Extract the `packet_type` from the LSB three bits: uint8_t packet_type = p_packet[0] & 7; switch (packet_type) { case NETWORK_COMMAND_SIMPLIFY_PATH: { _process_simplify_path(p_from, p_packet, p_packet_len); } break; case NETWORK_COMMAND_CONFIRM_PATH: { _process_confirm_path(p_from, p_packet, p_packet_len); } break; case NETWORK_COMMAND_REMOTE_CALL: case NETWORK_COMMAND_REMOTE_SET: { // Extract packet meta int packet_min_size = 1; int name_id_offset = 1; ERR_FAIL_COND_MSG(p_packet_len < packet_min_size, "Invalid packet received. Size too small."); // Compute the meta size, which depends on the compression level. int node_id_compression = (p_packet[0] & 24) >> 3; int name_id_compression = (p_packet[0] & 32) >> 5; switch (node_id_compression) { case NETWORK_NODE_ID_COMPRESSION_8: packet_min_size += 1; name_id_offset += 1; break; case NETWORK_NODE_ID_COMPRESSION_16: packet_min_size += 2; name_id_offset += 2; break; case NETWORK_NODE_ID_COMPRESSION_32: packet_min_size += 4; name_id_offset += 4; break; default: ERR_FAIL_MSG("Was not possible to extract the node id compression mode."); } switch (name_id_compression) { case NETWORK_NAME_ID_COMPRESSION_8: packet_min_size += 1; break; case NETWORK_NAME_ID_COMPRESSION_16: packet_min_size += 2; break; default: ERR_FAIL_MSG("Was not possible to extract the name id compression mode."); } ERR_FAIL_COND_MSG(p_packet_len < packet_min_size, "Invalid packet received. Size too small."); uint32_t node_target = 0; switch (node_id_compression) { case NETWORK_NODE_ID_COMPRESSION_8: node_target = p_packet[1]; break; case NETWORK_NODE_ID_COMPRESSION_16: node_target = decode_uint16(p_packet + 1); break; case NETWORK_NODE_ID_COMPRESSION_32: node_target = decode_uint32(p_packet + 1); break; default: // Unreachable, checked before. CRASH_NOW(); } Node *node = _process_get_node(p_from, p_packet, node_target, p_packet_len); ERR_FAIL_COND_MSG(node == NULL, "Invalid packet received. Requested node was not found."); uint16_t name_id = 0; switch (name_id_compression) { case NETWORK_NAME_ID_COMPRESSION_8: name_id = p_packet[name_id_offset]; break; case NETWORK_NAME_ID_COMPRESSION_16: name_id = decode_uint16(p_packet + name_id_offset); break; default: // Unreachable, checked before. CRASH_NOW(); } if (packet_type == NETWORK_COMMAND_REMOTE_CALL) { _process_rpc(node, name_id, p_from, p_packet, p_packet_len, packet_min_size); } else { _process_rset(node, name_id, p_from, p_packet, p_packet_len, packet_min_size); } } break; case NETWORK_COMMAND_RAW: { _process_raw(p_from, p_packet, p_packet_len); } break; } } Node *MultiplayerAPI::_process_get_node(int p_from, const uint8_t *p_packet, uint32_t p_node_target, int p_packet_len) { Node *node = NULL; if (p_node_target & 0x80000000) { // Use full path (not cached yet). int ofs = p_node_target & 0x7FFFFFFF; ERR_FAIL_COND_V_MSG(ofs >= p_packet_len, NULL, "Invalid packet received. Size smaller than declared."); String paths; paths.parse_utf8((const char *)&p_packet[ofs], p_packet_len - ofs); NodePath np = paths; node = root_node->get_node(np); if (!node) ERR_PRINT("Failed to get path from RPC: " + String(np) + "."); } else { // Use cached path. int id = p_node_target; Map::Element *E = path_get_cache.find(p_from); ERR_FAIL_COND_V_MSG(!E, NULL, "Invalid packet received. Requests invalid peer cache."); Map::Element *F = E->get().nodes.find(id); ERR_FAIL_COND_V_MSG(!F, NULL, "Invalid packet received. Unabled to find requested cached node."); PathGetCache::NodeInfo *ni = &F->get(); // Do proper caching later. node = root_node->get_node(ni->path); if (!node) ERR_PRINT("Failed to get cached path from RPC: " + String(ni->path) + "."); } return node; } void MultiplayerAPI::_process_rpc(Node *p_node, const uint16_t p_rpc_method_id, int p_from, const uint8_t *p_packet, int p_packet_len, int p_offset) { ERR_FAIL_COND_MSG(p_offset >= p_packet_len, "Invalid packet received. Size too small."); // Check that remote can call the RPC on this node. StringName name = p_node->get_node_rpc_method(p_rpc_method_id); RPCMode rpc_mode = p_node->get_node_rpc_mode_by_id(p_rpc_method_id); if (name == StringName() && p_node->get_script_instance()) { name = p_node->get_script_instance()->get_rpc_method(p_rpc_method_id); rpc_mode = p_node->get_script_instance()->get_rpc_mode_by_id(p_rpc_method_id); } ERR_FAIL_COND(name == StringName()); bool can_call = _can_call_mode(p_node, rpc_mode, p_from); ERR_FAIL_COND_MSG(!can_call, "RPC '" + String(name) + "' is not allowed on node " + p_node->get_path() + " from: " + itos(p_from) + ". Mode is " + itos((int)rpc_mode) + ", master is " + itos(p_node->get_network_master()) + "."); int argc = p_packet[p_offset]; Vector args; Vector argp; args.resize(argc); argp.resize(argc); p_offset++; #ifdef DEBUG_ENABLED if (profiling) { ObjectID id = p_node->get_instance_id(); _init_node_profile(id); profiler_frame_data[id].incoming_rpc += 1; } #endif for (int i = 0; i < argc; i++) { ERR_FAIL_COND_MSG(p_offset >= p_packet_len, "Invalid packet received. Size too small."); int vlen; Error err = _decode_and_decompress_variant(args.write[i], &p_packet[p_offset], p_packet_len - p_offset, &vlen); ERR_FAIL_COND_MSG(err != OK, "Invalid packet received. Unable to decode RPC argument."); argp.write[i] = &args[i]; p_offset += vlen; } Callable::CallError ce; p_node->call(name, (const Variant **)argp.ptr(), argc, ce); if (ce.error != Callable::CallError::CALL_OK) { String error = Variant::get_call_error_text(p_node, name, (const Variant **)argp.ptr(), argc, ce); error = "RPC - " + error; ERR_PRINT(error); } } void MultiplayerAPI::_process_rset(Node *p_node, const uint16_t p_rpc_property_id, int p_from, const uint8_t *p_packet, int p_packet_len, int p_offset) { ERR_FAIL_COND_MSG(p_offset >= p_packet_len, "Invalid packet received. Size too small."); // Check that remote can call the RSET on this node. StringName name = p_node->get_node_rset_property(p_rpc_property_id); RPCMode rset_mode = p_node->get_node_rset_mode_by_id(p_rpc_property_id); if (name == StringName() && p_node->get_script_instance()) { name = p_node->get_script_instance()->get_rset_property(p_rpc_property_id); rset_mode = p_node->get_script_instance()->get_rset_mode_by_id(p_rpc_property_id); } ERR_FAIL_COND(name == StringName()); bool can_call = _can_call_mode(p_node, rset_mode, p_from); ERR_FAIL_COND_MSG(!can_call, "RSET '" + String(name) + "' is not allowed on node " + p_node->get_path() + " from: " + itos(p_from) + ". Mode is " + itos((int)rset_mode) + ", master is " + itos(p_node->get_network_master()) + "."); #ifdef DEBUG_ENABLED if (profiling) { ObjectID id = p_node->get_instance_id(); _init_node_profile(id); profiler_frame_data[id].incoming_rset += 1; } #endif Variant value; Error err = _decode_and_decompress_variant(value, &p_packet[p_offset], p_packet_len - p_offset, NULL); ERR_FAIL_COND_MSG(err != OK, "Invalid packet received. Unable to decode RSET value."); bool valid; p_node->set(name, value, &valid); if (!valid) { String error = "Error setting remote property '" + String(name) + "', not found in object of type " + p_node->get_class() + "."; ERR_PRINT(error); } } void MultiplayerAPI::_process_simplify_path(int p_from, const uint8_t *p_packet, int p_packet_len) { ERR_FAIL_COND_MSG(p_packet_len < 38, "Invalid packet received. Size too small."); int ofs = 1; String methods_md5; methods_md5.parse_utf8((const char *)(p_packet + ofs), 32); ofs += 33; int id = decode_uint32(&p_packet[ofs]); ofs += 4; String paths; paths.parse_utf8((const char *)(p_packet + ofs), p_packet_len - ofs); NodePath path = paths; if (!path_get_cache.has(p_from)) { path_get_cache[p_from] = PathGetCache(); } Node *node = root_node->get_node(path); ERR_FAIL_COND(node == NULL); const bool valid_rpc_checksum = node->get_rpc_md5() == methods_md5; if (valid_rpc_checksum == false) { ERR_PRINT("The rpc node checksum failed. Make sure to have the same methods on both nodes. Node path: " + path); } PathGetCache::NodeInfo ni; ni.path = path; path_get_cache[p_from].nodes[id] = ni; // Encode path to send ack. CharString pname = String(path).utf8(); int len = encode_cstring(pname.get_data(), NULL); Vector packet; packet.resize(1 + 1 + len); packet.write[0] = NETWORK_COMMAND_CONFIRM_PATH; packet.write[1] = valid_rpc_checksum; encode_cstring(pname.get_data(), &packet.write[2]); network_peer->set_transfer_mode(NetworkedMultiplayerPeer::TRANSFER_MODE_RELIABLE); network_peer->set_target_peer(p_from); network_peer->put_packet(packet.ptr(), packet.size()); } void MultiplayerAPI::_process_confirm_path(int p_from, const uint8_t *p_packet, int p_packet_len) { ERR_FAIL_COND_MSG(p_packet_len < 3, "Invalid packet received. Size too small."); const bool valid_rpc_checksum = p_packet[1]; String paths; paths.parse_utf8((const char *)&p_packet[2], p_packet_len - 2); NodePath path = paths; if (valid_rpc_checksum == false) { ERR_PRINT("The rpc node checksum failed. Make sure to have the same methods on both nodes. Node path: " + path); } PathSentCache *psc = path_send_cache.getptr(path); ERR_FAIL_COND_MSG(!psc, "Invalid packet received. Tries to confirm a path which was not found in cache."); Map::Element *E = psc->confirmed_peers.find(p_from); ERR_FAIL_COND_MSG(!E, "Invalid packet received. Source peer was not found in cache for the given path."); E->get() = true; } bool MultiplayerAPI::_send_confirm_path(Node *p_node, NodePath p_path, PathSentCache *psc, int p_target) { bool has_all_peers = true; List peers_to_add; // If one is missing, take note to add it. for (Set::Element *E = connected_peers.front(); E; E = E->next()) { if (p_target < 0 && E->get() == -p_target) continue; // Continue, excluded. if (p_target > 0 && E->get() != p_target) continue; // Continue, not for this peer. Map::Element *F = psc->confirmed_peers.find(E->get()); if (!F || !F->get()) { // Path was not cached, or was cached but is unconfirmed. if (!F) { // Not cached at all, take note. peers_to_add.push_back(E->get()); } has_all_peers = false; } } if (peers_to_add.size() > 0) { // Those that need to be added, send a message for this. // Encode function name. const CharString path = String(p_path).utf8(); const int path_len = encode_cstring(path.get_data(), NULL); // Extract MD5 from rpc methods list. const String methods_md5 = p_node->get_rpc_md5(); const int methods_md5_len = 33; // 32 + 1 for the `0` that is added by the encoder. Vector packet; packet.resize(1 + 4 + path_len + methods_md5_len); int ofs = 0; packet.write[ofs] = NETWORK_COMMAND_SIMPLIFY_PATH; ofs += 1; ofs += encode_cstring(methods_md5.utf8().get_data(), &packet.write[ofs]); ofs += encode_uint32(psc->id, &packet.write[ofs]); ofs += encode_cstring(path.get_data(), &packet.write[ofs]); for (List::Element *E = peers_to_add.front(); E; E = E->next()) { network_peer->set_target_peer(E->get()); // To all of you. network_peer->set_transfer_mode(NetworkedMultiplayerPeer::TRANSFER_MODE_RELIABLE); network_peer->put_packet(packet.ptr(), packet.size()); psc->confirmed_peers.insert(E->get(), false); // Insert into confirmed, but as false since it was not confirmed. } } return has_all_peers; } // The variant is compressed and encoded; The first byte contains all the meta // information and the format is: // - The first LSB 5 bits are used for the variant type. // - The next two bits are used to store the encoding mode. // - The most significant is used to store the boolean value. #define VARIANT_META_TYPE_MASK 0x1F #define VARIANT_META_EMODE_MASK 0x60 #define VARIANT_META_BOOL_MASK 0x80 #define ENCODE_8 0 << 5 #define ENCODE_16 1 << 5 #define ENCODE_32 2 << 5 #define ENCODE_64 3 << 5 Error MultiplayerAPI::_encode_and_compress_variant(const Variant &p_variant, uint8_t *r_buffer, int &r_len) { // Unreachable because `VARIANT_MAX` == 27 and `ENCODE_VARIANT_MASK` == 31 CRASH_COND(p_variant.get_type() > VARIANT_META_TYPE_MASK); uint8_t *buf = r_buffer; r_len = 0; uint8_t encode_mode = 0; switch (p_variant.get_type()) { case Variant::BOOL: { if (buf) { // We still have 1 free bit in the meta, so let's use it. buf[0] = (p_variant.operator bool()) ? (1 << 7) : 0; buf[0] |= encode_mode | p_variant.get_type(); } r_len += 1; } break; case Variant::INT: { if (buf) { // Reserve the first byte for the meta. buf += 1; } r_len += 1; int64_t val = p_variant; if (val <= (int64_t)INT8_MAX && val >= (int64_t)INT8_MIN) { // Use 8 bit encode_mode = ENCODE_8; if (buf) { buf[0] = val; } r_len += 1; } else if (val <= (int64_t)INT16_MAX && val >= (int64_t)INT16_MIN) { // Use 16 bit encode_mode = ENCODE_16; if (buf) { encode_uint16(val, buf); } r_len += 2; } else if (val <= (int64_t)INT32_MAX && val >= (int64_t)INT32_MIN) { // Use 32 bit encode_mode = ENCODE_32; if (buf) { encode_uint32(val, buf); } r_len += 4; } else { // Use 64 bit encode_mode = ENCODE_64; if (buf) { encode_uint64(val, buf); } r_len += 8; } // Store the meta if (buf) { buf -= 1; buf[0] = encode_mode | p_variant.get_type(); } } break; default: // Any other case is not yet compressed. Error err = encode_variant(p_variant, r_buffer, r_len, allow_object_decoding); if (err != OK) return err; if (r_buffer) { // The first byte is not used by the marshaling, so store the type // so we know how to decompress and decode this variant. r_buffer[0] = p_variant.get_type(); } } return OK; } Error MultiplayerAPI::_decode_and_decompress_variant(Variant &r_variant, const uint8_t *p_buffer, int p_len, int *r_len) { const uint8_t *buf = p_buffer; int len = p_len; ERR_FAIL_COND_V(len < 1, ERR_INVALID_DATA); uint8_t type = buf[0] & VARIANT_META_TYPE_MASK; uint8_t encode_mode = buf[0] & VARIANT_META_EMODE_MASK; ERR_FAIL_COND_V(type >= Variant::VARIANT_MAX, ERR_INVALID_DATA); switch (type) { case Variant::BOOL: { bool val = (buf[0] & VARIANT_META_BOOL_MASK) > 0; r_variant = val; if (r_len) *r_len = 1; } break; case Variant::INT: { buf += 1; len -= 1; if (r_len) *r_len = 1; if (encode_mode == ENCODE_8) { // 8 bits. ERR_FAIL_COND_V(len < 1, ERR_INVALID_DATA); int8_t val = buf[0]; r_variant = val; if (r_len) (*r_len) += 1; } else if (encode_mode == ENCODE_16) { // 16 bits. ERR_FAIL_COND_V(len < 2, ERR_INVALID_DATA); int16_t val = decode_uint16(buf); r_variant = val; if (r_len) (*r_len) += 2; } else if (encode_mode == ENCODE_32) { // 32 bits. ERR_FAIL_COND_V(len < 4, ERR_INVALID_DATA); int32_t val = decode_uint32(buf); r_variant = val; if (r_len) (*r_len) += 4; } else { // 64 bits. ERR_FAIL_COND_V(len < 8, ERR_INVALID_DATA); int64_t val = decode_uint64(buf); r_variant = val; if (r_len) (*r_len) += 8; } } break; default: Error err = decode_variant(r_variant, p_buffer, p_len, r_len, allow_object_decoding); if (err != OK) return err; } return OK; } void MultiplayerAPI::_send_rpc(Node *p_from, int p_to, bool p_unreliable, bool p_set, const StringName &p_name, const Variant **p_arg, int p_argcount) { ERR_FAIL_COND_MSG(network_peer.is_null(), "Attempt to remote call/set when networking is not active in SceneTree."); ERR_FAIL_COND_MSG(network_peer->get_connection_status() == NetworkedMultiplayerPeer::CONNECTION_CONNECTING, "Attempt to remote call/set when networking is not connected yet in SceneTree."); ERR_FAIL_COND_MSG(network_peer->get_connection_status() == NetworkedMultiplayerPeer::CONNECTION_DISCONNECTED, "Attempt to remote call/set when networking is disconnected."); ERR_FAIL_COND_MSG(p_argcount > 255, "Too many arguments >255."); if (p_to != 0 && !connected_peers.has(ABS(p_to))) { ERR_FAIL_COND_MSG(p_to == network_peer->get_unique_id(), "Attempt to remote call/set yourself! unique ID: " + itos(network_peer->get_unique_id()) + "."); ERR_FAIL_MSG("Attempt to remote call unexisting ID: " + itos(p_to) + "."); } NodePath from_path = (root_node->get_path()).rel_path_to(p_from->get_path()); ERR_FAIL_COND_MSG(from_path.is_empty(), "Unable to send RPC. Relative path is empty. THIS IS LIKELY A BUG IN THE ENGINE!"); // See if the path is cached. PathSentCache *psc = path_send_cache.getptr(from_path); if (!psc) { // Path is not cached, create. path_send_cache[from_path] = PathSentCache(); psc = path_send_cache.getptr(from_path); psc->id = last_send_cache_id++; } // See if all peers have cached path (if so, call can be fast). const bool has_all_peers = _send_confirm_path(p_from, from_path, psc, p_to); // Create base packet, lots of hardcode because it must be tight. int ofs = 0; #define MAKE_ROOM(m_amount) \ if (packet_cache.size() < m_amount) packet_cache.resize(m_amount); // Encode meta. // The meta is composed by a single byte that contains (starting from the least segnificant bit): // - `NetworkCommands` in the first three bits. // - `NetworkNodeIdCompression` in the next 2 bits. // - `NetworkNameIdCompression` in the next 1 bit. // - So we still have the last two bits free! uint8_t command_type = p_set ? NETWORK_COMMAND_REMOTE_SET : NETWORK_COMMAND_REMOTE_CALL; uint8_t node_id_compression = UINT8_MAX; uint8_t name_id_compression = UINT8_MAX; MAKE_ROOM(1); // The meta is composed along the way, so just set 0 for now. packet_cache.write[0] = 0; ofs += 1; // Encode Node ID. if (has_all_peers) { // Compress the node ID only if all the target peers already know it. if (psc->id >= 0 && psc->id <= 255) { // We can encode the id in 1 byte node_id_compression = NETWORK_NODE_ID_COMPRESSION_8; MAKE_ROOM(ofs + 1); packet_cache.write[ofs] = static_cast(psc->id); ofs += 1; } else if (psc->id >= 0 && psc->id <= 65535) { // We can encode the id in 2 bytes node_id_compression = NETWORK_NODE_ID_COMPRESSION_16; MAKE_ROOM(ofs + 2); encode_uint16(static_cast(psc->id), &(packet_cache.write[ofs])); ofs += 2; } else { // Too big, let's use 4 bytes. node_id_compression = NETWORK_NODE_ID_COMPRESSION_32; MAKE_ROOM(ofs + 4); encode_uint32(psc->id, &(packet_cache.write[ofs])); ofs += 4; } } else { // The targets doesn't know the node yet, so we need to use 32 bits int. node_id_compression = NETWORK_NODE_ID_COMPRESSION_32; MAKE_ROOM(ofs + 4); encode_uint32(psc->id, &(packet_cache.write[ofs])); ofs += 4; } if (p_set) { // Take the rpc property ID uint16_t property_id = p_from->get_node_rset_property_id(p_name); if (property_id == UINT16_MAX && p_from->get_script_instance()) { property_id = p_from->get_script_instance()->get_rset_property_id(p_name); } ERR_FAIL_COND_MSG(property_id == UINT16_MAX, "Unable to take the `property_id` for the property:" + p_name + ". this can happen only if this property is not marked as `remote`."); if (property_id <= UINT8_MAX) { // The ID fits in 1 byte name_id_compression = NETWORK_NAME_ID_COMPRESSION_8; MAKE_ROOM(ofs + 1); packet_cache.write[ofs] = static_cast(property_id); ofs += 1; } else { // The ID is larger, let's use 2 bytes name_id_compression = NETWORK_NAME_ID_COMPRESSION_16; MAKE_ROOM(ofs + 2); encode_uint16(property_id, &(packet_cache.write[ofs])); ofs += 2; } // Set argument. int len(0); Error err = _encode_and_compress_variant(*p_arg[0], NULL, len); ERR_FAIL_COND_MSG(err != OK, "Unable to encode RSET value. THIS IS LIKELY A BUG IN THE ENGINE!"); MAKE_ROOM(ofs + len); _encode_and_compress_variant(*p_arg[0], &(packet_cache.write[ofs]), len); ofs += len; } else { // Take the rpc method ID uint16_t method_id = p_from->get_node_rpc_method_id(p_name); if (method_id == UINT16_MAX && p_from->get_script_instance()) { method_id = p_from->get_script_instance()->get_rpc_method_id(p_name); } ERR_FAIL_COND_MSG(method_id == UINT16_MAX, "Unable to take the `method_id` for the function:" + p_name + ". this can happen only if this method is not marked as `remote`."); if (method_id <= UINT8_MAX) { // The ID fits in 1 byte name_id_compression = NETWORK_NAME_ID_COMPRESSION_8; MAKE_ROOM(ofs + 1); packet_cache.write[ofs] = static_cast(method_id); ofs += 1; } else { // The ID is larger, let's use 2 bytes name_id_compression = NETWORK_NAME_ID_COMPRESSION_16; MAKE_ROOM(ofs + 2); encode_uint16(method_id, &(packet_cache.write[ofs])); ofs += 2; } // Call arguments. MAKE_ROOM(ofs + 1); packet_cache.write[ofs] = p_argcount; ofs += 1; for (int i = 0; i < p_argcount; i++) { int len(0); Error err = _encode_and_compress_variant(*p_arg[i], NULL, len); ERR_FAIL_COND_MSG(err != OK, "Unable to encode RPC argument. THIS IS LIKELY A BUG IN THE ENGINE!"); MAKE_ROOM(ofs + len); _encode_and_compress_variant(*p_arg[i], &(packet_cache.write[ofs]), len); ofs += len; } } ERR_FAIL_COND(command_type > 7); ERR_FAIL_COND(node_id_compression > 3); ERR_FAIL_COND(name_id_compression > 1); // We can now set the meta packet_cache.write[0] = command_type + (node_id_compression << 3) + (name_id_compression << 5); #ifdef DEBUG_ENABLED if (profiling) { bandwidth_outgoing_data.write[bandwidth_outgoing_pointer].timestamp = OS::get_singleton()->get_ticks_msec(); bandwidth_outgoing_data.write[bandwidth_outgoing_pointer].packet_size = ofs; bandwidth_outgoing_pointer = (bandwidth_outgoing_pointer + 1) % bandwidth_outgoing_data.size(); } #endif // Take chance and set transfer mode, since all send methods will use it. network_peer->set_transfer_mode(p_unreliable ? NetworkedMultiplayerPeer::TRANSFER_MODE_UNRELIABLE : NetworkedMultiplayerPeer::TRANSFER_MODE_RELIABLE); if (has_all_peers) { // They all have verified paths, so send fast. network_peer->set_target_peer(p_to); // To all of you. network_peer->put_packet(packet_cache.ptr(), ofs); // A message with love. } else { // Unreachable because the node ID is never compressed if the peers doesn't know it. CRASH_COND(node_id_compression != NETWORK_NODE_ID_COMPRESSION_32); // Not all verified path, so send one by one. // Append path at the end, since we will need it for some packets. CharString pname = String(from_path).utf8(); int path_len = encode_cstring(pname.get_data(), NULL); MAKE_ROOM(ofs + path_len); encode_cstring(pname.get_data(), &(packet_cache.write[ofs])); for (Set::Element *E = connected_peers.front(); E; E = E->next()) { if (p_to < 0 && E->get() == -p_to) continue; // Continue, excluded. if (p_to > 0 && E->get() != p_to) continue; // Continue, not for this peer. Map::Element *F = psc->confirmed_peers.find(E->get()); ERR_CONTINUE(!F); // Should never happen. network_peer->set_target_peer(E->get()); // To this one specifically. if (F->get()) { // This one confirmed path, so use id. encode_uint32(psc->id, &(packet_cache.write[1])); network_peer->put_packet(packet_cache.ptr(), ofs); } else { // This one did not confirm path yet, so use entire path (sorry!). encode_uint32(0x80000000 | ofs, &(packet_cache.write[1])); // Offset to path and flag. network_peer->put_packet(packet_cache.ptr(), ofs + path_len); } } } } void MultiplayerAPI::_add_peer(int p_id) { connected_peers.insert(p_id); path_get_cache.insert(p_id, PathGetCache()); emit_signal("network_peer_connected", p_id); } void MultiplayerAPI::_del_peer(int p_id) { connected_peers.erase(p_id); // Cleanup get cache. path_get_cache.erase(p_id); // Cleanup sent cache. // Some refactoring is needed to make this faster and do paths GC. List keys; path_send_cache.get_key_list(&keys); for (List::Element *E = keys.front(); E; E = E->next()) { PathSentCache *psc = path_send_cache.getptr(E->get()); psc->confirmed_peers.erase(p_id); } emit_signal("network_peer_disconnected", p_id); } void MultiplayerAPI::_connected_to_server() { emit_signal("connected_to_server"); } void MultiplayerAPI::_connection_failed() { emit_signal("connection_failed"); } void MultiplayerAPI::_server_disconnected() { emit_signal("server_disconnected"); } void MultiplayerAPI::rpcp(Node *p_node, int p_peer_id, bool p_unreliable, const StringName &p_method, const Variant **p_arg, int p_argcount) { ERR_FAIL_COND_MSG(!network_peer.is_valid(), "Trying to call an RPC while no network peer is active."); ERR_FAIL_COND_MSG(!p_node->is_inside_tree(), "Trying to call an RPC on a node which is not inside SceneTree."); ERR_FAIL_COND_MSG(network_peer->get_connection_status() != NetworkedMultiplayerPeer::CONNECTION_CONNECTED, "Trying to call an RPC via a network peer which is not connected."); int node_id = network_peer->get_unique_id(); bool skip_rpc = node_id == p_peer_id; bool call_local_native = false; bool call_local_script = false; bool is_master = p_node->is_network_master(); if (p_peer_id == 0 || p_peer_id == node_id || (p_peer_id < 0 && p_peer_id != -node_id)) { // Check that send mode can use local call. RPCMode rpc_mode = p_node->get_node_rpc_mode(p_method); call_local_native = _should_call_local(rpc_mode, is_master, skip_rpc); if (call_local_native) { // Done below. } else if (p_node->get_script_instance()) { // Attempt with script. rpc_mode = p_node->get_script_instance()->get_rpc_mode(p_method); call_local_script = _should_call_local(rpc_mode, is_master, skip_rpc); } } if (!skip_rpc) { #ifdef DEBUG_ENABLED if (profiling) { ObjectID id = p_node->get_instance_id(); _init_node_profile(id); profiler_frame_data[id].outgoing_rpc += 1; } #endif _send_rpc(p_node, p_peer_id, p_unreliable, false, p_method, p_arg, p_argcount); } if (call_local_native) { int temp_id = rpc_sender_id; rpc_sender_id = get_network_unique_id(); Callable::CallError ce; p_node->call(p_method, p_arg, p_argcount, ce); rpc_sender_id = temp_id; if (ce.error != Callable::CallError::CALL_OK) { String error = Variant::get_call_error_text(p_node, p_method, p_arg, p_argcount, ce); error = "rpc() aborted in local call: - " + error + "."; ERR_PRINT(error); return; } } if (call_local_script) { int temp_id = rpc_sender_id; rpc_sender_id = get_network_unique_id(); Callable::CallError ce; ce.error = Callable::CallError::CALL_OK; p_node->get_script_instance()->call(p_method, p_arg, p_argcount, ce); rpc_sender_id = temp_id; if (ce.error != Callable::CallError::CALL_OK) { String error = Variant::get_call_error_text(p_node, p_method, p_arg, p_argcount, ce); error = "rpc() aborted in script local call: - " + error + "."; ERR_PRINT(error); return; } } ERR_FAIL_COND_MSG(skip_rpc && !(call_local_native || call_local_script), "RPC '" + p_method + "' on yourself is not allowed by selected mode."); } void MultiplayerAPI::rsetp(Node *p_node, int p_peer_id, bool p_unreliable, const StringName &p_property, const Variant &p_value) { ERR_FAIL_COND_MSG(!network_peer.is_valid(), "Trying to RSET while no network peer is active."); ERR_FAIL_COND_MSG(!p_node->is_inside_tree(), "Trying to RSET on a node which is not inside SceneTree."); ERR_FAIL_COND_MSG(network_peer->get_connection_status() != NetworkedMultiplayerPeer::CONNECTION_CONNECTED, "Trying to send an RSET via a network peer which is not connected."); int node_id = network_peer->get_unique_id(); bool is_master = p_node->is_network_master(); bool skip_rset = node_id == p_peer_id; bool set_local = false; if (p_peer_id == 0 || p_peer_id == node_id || (p_peer_id < 0 && p_peer_id != -node_id)) { // Check that send mode can use local call. RPCMode rpc_mode = p_node->get_node_rset_mode(p_property); set_local = _should_call_local(rpc_mode, is_master, skip_rset); if (set_local) { bool valid; int temp_id = rpc_sender_id; rpc_sender_id = get_network_unique_id(); p_node->set(p_property, p_value, &valid); rpc_sender_id = temp_id; if (!valid) { String error = "rset() aborted in local set, property not found: - " + String(p_property) + "."; ERR_PRINT(error); return; } } else if (p_node->get_script_instance()) { // Attempt with script. rpc_mode = p_node->get_script_instance()->get_rset_mode(p_property); set_local = _should_call_local(rpc_mode, is_master, skip_rset); if (set_local) { int temp_id = rpc_sender_id; rpc_sender_id = get_network_unique_id(); bool valid = p_node->get_script_instance()->set(p_property, p_value); rpc_sender_id = temp_id; if (!valid) { String error = "rset() aborted in local script set, property not found: - " + String(p_property) + "."; ERR_PRINT(error); return; } } } } if (skip_rset) { ERR_FAIL_COND_MSG(!set_local, "RSET for '" + p_property + "' on yourself is not allowed by selected mode."); return; } #ifdef DEBUG_ENABLED if (profiling) { ObjectID id = p_node->get_instance_id(); _init_node_profile(id); profiler_frame_data[id].outgoing_rset += 1; } #endif const Variant *vptr = &p_value; _send_rpc(p_node, p_peer_id, p_unreliable, true, p_property, &vptr, 1); } Error MultiplayerAPI::send_bytes(Vector p_data, int p_to, NetworkedMultiplayerPeer::TransferMode p_mode) { ERR_FAIL_COND_V_MSG(p_data.size() < 1, ERR_INVALID_DATA, "Trying to send an empty raw packet."); ERR_FAIL_COND_V_MSG(!network_peer.is_valid(), ERR_UNCONFIGURED, "Trying to send a raw packet while no network peer is active."); ERR_FAIL_COND_V_MSG(network_peer->get_connection_status() != NetworkedMultiplayerPeer::CONNECTION_CONNECTED, ERR_UNCONFIGURED, "Trying to send a raw packet via a network peer which is not connected."); MAKE_ROOM(p_data.size() + 1); const uint8_t *r = p_data.ptr(); packet_cache.write[0] = NETWORK_COMMAND_RAW; memcpy(&packet_cache.write[1], &r[0], p_data.size()); network_peer->set_target_peer(p_to); network_peer->set_transfer_mode(p_mode); return network_peer->put_packet(packet_cache.ptr(), p_data.size() + 1); } void MultiplayerAPI::_process_raw(int p_from, const uint8_t *p_packet, int p_packet_len) { ERR_FAIL_COND_MSG(p_packet_len < 2, "Invalid packet received. Size too small."); Vector out; int len = p_packet_len - 1; out.resize(len); { uint8_t *w = out.ptrw(); memcpy(&w[0], &p_packet[1], len); } emit_signal("network_peer_packet", p_from, out); } int MultiplayerAPI::get_network_unique_id() const { ERR_FAIL_COND_V_MSG(!network_peer.is_valid(), 0, "No network peer is assigned. Unable to get unique network ID."); return network_peer->get_unique_id(); } bool MultiplayerAPI::is_network_server() const { // XXX Maybe fail silently? Maybe should actually return true to make development of both local and online multiplayer easier? ERR_FAIL_COND_V_MSG(!network_peer.is_valid(), false, "No network peer is assigned. I can't be a server."); return network_peer->is_server(); } void MultiplayerAPI::set_refuse_new_network_connections(bool p_refuse) { ERR_FAIL_COND_MSG(!network_peer.is_valid(), "No network peer is assigned. Unable to set 'refuse_new_connections'."); network_peer->set_refuse_new_connections(p_refuse); } bool MultiplayerAPI::is_refusing_new_network_connections() const { ERR_FAIL_COND_V_MSG(!network_peer.is_valid(), false, "No network peer is assigned. Unable to get 'refuse_new_connections'."); return network_peer->is_refusing_new_connections(); } Vector MultiplayerAPI::get_network_connected_peers() const { ERR_FAIL_COND_V_MSG(!network_peer.is_valid(), Vector(), "No network peer is assigned. Assume no peers are connected."); Vector ret; for (Set::Element *E = connected_peers.front(); E; E = E->next()) { ret.push_back(E->get()); } return ret; } void MultiplayerAPI::set_allow_object_decoding(bool p_enable) { allow_object_decoding = p_enable; } bool MultiplayerAPI::is_object_decoding_allowed() const { return allow_object_decoding; } void MultiplayerAPI::profiling_start() { #ifdef DEBUG_ENABLED profiling = true; profiler_frame_data.clear(); bandwidth_incoming_pointer = 0; bandwidth_incoming_data.resize(16384); // ~128kB for (int i = 0; i < bandwidth_incoming_data.size(); ++i) { bandwidth_incoming_data.write[i].packet_size = -1; } bandwidth_outgoing_pointer = 0; bandwidth_outgoing_data.resize(16384); // ~128kB for (int i = 0; i < bandwidth_outgoing_data.size(); ++i) { bandwidth_outgoing_data.write[i].packet_size = -1; } #endif } void MultiplayerAPI::profiling_end() { #ifdef DEBUG_ENABLED profiling = false; bandwidth_incoming_data.clear(); bandwidth_outgoing_data.clear(); #endif } int MultiplayerAPI::get_profiling_frame(ProfilingInfo *r_info) { int i = 0; #ifdef DEBUG_ENABLED for (Map::Element *E = profiler_frame_data.front(); E; E = E->next()) { r_info[i] = E->get(); ++i; } profiler_frame_data.clear(); #endif return i; } int MultiplayerAPI::get_incoming_bandwidth_usage() { #ifdef DEBUG_ENABLED return _get_bandwidth_usage(bandwidth_incoming_data, bandwidth_incoming_pointer); #else return 0; #endif } int MultiplayerAPI::get_outgoing_bandwidth_usage() { #ifdef DEBUG_ENABLED return _get_bandwidth_usage(bandwidth_outgoing_data, bandwidth_outgoing_pointer); #else return 0; #endif } #ifdef DEBUG_ENABLED int MultiplayerAPI::_get_bandwidth_usage(const Vector &p_buffer, int p_pointer) { int total_bandwidth = 0; uint32_t timestamp = OS::get_singleton()->get_ticks_msec(); uint32_t final_timestamp = timestamp - 1000; int i = (p_pointer + p_buffer.size() - 1) % p_buffer.size(); while (i != p_pointer && p_buffer[i].packet_size > 0) { if (p_buffer[i].timestamp < final_timestamp) { return total_bandwidth; } total_bandwidth += p_buffer[i].packet_size; i = (i + p_buffer.size() - 1) % p_buffer.size(); } ERR_FAIL_COND_V_MSG(i == p_pointer, total_bandwidth, "Reached the end of the bandwidth profiler buffer, values might be inaccurate."); return total_bandwidth; } void MultiplayerAPI::_init_node_profile(ObjectID p_node) { if (profiler_frame_data.has(p_node)) return; profiler_frame_data.insert(p_node, ProfilingInfo()); profiler_frame_data[p_node].node = p_node; profiler_frame_data[p_node].node_path = Object::cast_to(ObjectDB::get_instance(p_node))->get_path(); profiler_frame_data[p_node].incoming_rpc = 0; profiler_frame_data[p_node].incoming_rset = 0; profiler_frame_data[p_node].outgoing_rpc = 0; profiler_frame_data[p_node].outgoing_rset = 0; } #endif void MultiplayerAPI::_bind_methods() { ClassDB::bind_method(D_METHOD("set_root_node", "node"), &MultiplayerAPI::set_root_node); ClassDB::bind_method(D_METHOD("send_bytes", "bytes", "id", "mode"), &MultiplayerAPI::send_bytes, DEFVAL(NetworkedMultiplayerPeer::TARGET_PEER_BROADCAST), DEFVAL(NetworkedMultiplayerPeer::TRANSFER_MODE_RELIABLE)); ClassDB::bind_method(D_METHOD("has_network_peer"), &MultiplayerAPI::has_network_peer); ClassDB::bind_method(D_METHOD("get_network_peer"), &MultiplayerAPI::get_network_peer); ClassDB::bind_method(D_METHOD("get_network_unique_id"), &MultiplayerAPI::get_network_unique_id); ClassDB::bind_method(D_METHOD("is_network_server"), &MultiplayerAPI::is_network_server); ClassDB::bind_method(D_METHOD("get_rpc_sender_id"), &MultiplayerAPI::get_rpc_sender_id); ClassDB::bind_method(D_METHOD("_add_peer", "id"), &MultiplayerAPI::_add_peer); ClassDB::bind_method(D_METHOD("_del_peer", "id"), &MultiplayerAPI::_del_peer); ClassDB::bind_method(D_METHOD("set_network_peer", "peer"), &MultiplayerAPI::set_network_peer); ClassDB::bind_method(D_METHOD("poll"), &MultiplayerAPI::poll); ClassDB::bind_method(D_METHOD("clear"), &MultiplayerAPI::clear); ClassDB::bind_method(D_METHOD("_connected_to_server"), &MultiplayerAPI::_connected_to_server); ClassDB::bind_method(D_METHOD("_connection_failed"), &MultiplayerAPI::_connection_failed); ClassDB::bind_method(D_METHOD("_server_disconnected"), &MultiplayerAPI::_server_disconnected); ClassDB::bind_method(D_METHOD("get_network_connected_peers"), &MultiplayerAPI::get_network_connected_peers); ClassDB::bind_method(D_METHOD("set_refuse_new_network_connections", "refuse"), &MultiplayerAPI::set_refuse_new_network_connections); ClassDB::bind_method(D_METHOD("is_refusing_new_network_connections"), &MultiplayerAPI::is_refusing_new_network_connections); ClassDB::bind_method(D_METHOD("set_allow_object_decoding", "enable"), &MultiplayerAPI::set_allow_object_decoding); ClassDB::bind_method(D_METHOD("is_object_decoding_allowed"), &MultiplayerAPI::is_object_decoding_allowed); ADD_PROPERTY(PropertyInfo(Variant::BOOL, "allow_object_decoding"), "set_allow_object_decoding", "is_object_decoding_allowed"); ADD_PROPERTY(PropertyInfo(Variant::BOOL, "refuse_new_network_connections"), "set_refuse_new_network_connections", "is_refusing_new_network_connections"); ADD_PROPERTY(PropertyInfo(Variant::OBJECT, "network_peer", PROPERTY_HINT_RESOURCE_TYPE, "NetworkedMultiplayerPeer", 0), "set_network_peer", "get_network_peer"); ADD_PROPERTY_DEFAULT("refuse_new_network_connections", false); ADD_SIGNAL(MethodInfo("network_peer_connected", PropertyInfo(Variant::INT, "id"))); ADD_SIGNAL(MethodInfo("network_peer_disconnected", PropertyInfo(Variant::INT, "id"))); ADD_SIGNAL(MethodInfo("network_peer_packet", PropertyInfo(Variant::INT, "id"), PropertyInfo(Variant::PACKED_BYTE_ARRAY, "packet"))); ADD_SIGNAL(MethodInfo("connected_to_server")); ADD_SIGNAL(MethodInfo("connection_failed")); ADD_SIGNAL(MethodInfo("server_disconnected")); BIND_ENUM_CONSTANT(RPC_MODE_DISABLED); BIND_ENUM_CONSTANT(RPC_MODE_REMOTE); BIND_ENUM_CONSTANT(RPC_MODE_MASTER); BIND_ENUM_CONSTANT(RPC_MODE_PUPPET); BIND_ENUM_CONSTANT(RPC_MODE_REMOTESYNC); BIND_ENUM_CONSTANT(RPC_MODE_MASTERSYNC); BIND_ENUM_CONSTANT(RPC_MODE_PUPPETSYNC); } MultiplayerAPI::MultiplayerAPI() : allow_object_decoding(false) { rpc_sender_id = 0; root_node = NULL; #ifdef DEBUG_ENABLED profiling = false; #endif clear(); } MultiplayerAPI::~MultiplayerAPI() { clear(); }