#include "./ngcext.hpp" #include #include NGCEXTEventProvider::NGCEXTEventProvider(ToxI& t, ToxEventProviderI& tep) : _t(t), _tep(tep) { _tep.subscribe(this, Tox_Event_Type::TOX_EVENT_GROUP_CUSTOM_PACKET); _tep.subscribe(this, Tox_Event_Type::TOX_EVENT_GROUP_CUSTOM_PRIVATE_PACKET); } #define _DATA_HAVE(x, error) if ((data_size - curser) < (x)) { error; } bool NGCEXTEventProvider::parse_hs1_request_last_ids( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool _private ) { return false; } bool NGCEXTEventProvider::parse_hs1_response_last_ids( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool _private ) { return false; } bool NGCEXTEventProvider::parse_ft1_request( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool // dont care private ) { Events::NGCEXT_ft1_request e; e.group_number = group_number; e.peer_number = peer_number; size_t curser = 0; // - 4 byte (file_kind) e.file_kind = 0u; _DATA_HAVE(sizeof(e.file_kind), std::cerr << "NGCEXT: packet too small, missing file_kind\n"; return false) for (size_t i = 0; i < sizeof(e.file_kind); i++, curser++) { e.file_kind |= uint32_t(data[curser]) << (i*8); } // - X bytes (file_kind dependent id, differnt sizes) e.file_id = {data+curser, data+curser+(data_size-curser)}; return dispatch( NGCEXT_Event::FT1_REQUEST, e ); } bool NGCEXTEventProvider::parse_ft1_init( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool _private ) { if (!_private) { std::cerr << "NGCEXT: ft1_init cant be public\n"; return false; } Events::NGCEXT_ft1_init e; e.group_number = group_number; e.peer_number = peer_number; size_t curser = 0; // - 4 byte (file_kind) e.file_kind = 0u; _DATA_HAVE(sizeof(e.file_kind), std::cerr << "NGCEXT: packet too small, missing file_kind\n"; return false) for (size_t i = 0; i < sizeof(e.file_kind); i++, curser++) { e.file_kind |= uint32_t(data[curser]) << (i*8); } // - 8 bytes (data size) e.file_size = 0u; _DATA_HAVE(sizeof(e.file_size), std::cerr << "NGCEXT: packet too small, missing file_size\n"; return false) for (size_t i = 0; i < sizeof(e.file_size); i++, curser++) { e.file_size |= size_t(data[curser]) << (i*8); } // - 1 byte (temporary_file_tf_id) _DATA_HAVE(sizeof(e.transfer_id), std::cerr << "NGCEXT: packet too small, missing transfer_id\n"; return false) e.transfer_id = data[curser++]; // - X bytes (file_kind dependent id, differnt sizes) e.file_id = {data+curser, data+curser+(data_size-curser)}; return dispatch( NGCEXT_Event::FT1_INIT, e ); } bool NGCEXTEventProvider::parse_ft1_init_ack( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool _private ) { if (!_private) { std::cerr << "NGCEXT: ft1_init_ack cant be public\n"; return false; } Events::NGCEXT_ft1_init_ack e; e.group_number = group_number; e.peer_number = peer_number; size_t curser = 0; // - 1 byte (temporary_file_tf_id) _DATA_HAVE(sizeof(e.transfer_id), std::cerr << "NGCEXT: packet too small, missing transfer_id\n"; return false) e.transfer_id = data[curser++]; e.max_lossy_data_size = 500-4; // -4 and 500 are hardcoded return dispatch( NGCEXT_Event::FT1_INIT_ACK, e ); } bool NGCEXTEventProvider::parse_ft1_data( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool _private ) { if (!_private) { std::cerr << "NGCEXT: ft1_data cant be public\n"; return false; } Events::NGCEXT_ft1_data e; e.group_number = group_number; e.peer_number = peer_number; size_t curser = 0; // - 1 byte (temporary_file_tf_id) _DATA_HAVE(sizeof(e.transfer_id), std::cerr << "NGCEXT: packet too small, missing transfer_id\n"; return false) e.transfer_id = data[curser++]; // - 2 bytes (sequence_id) e.sequence_id = 0u; _DATA_HAVE(sizeof(e.sequence_id), std::cerr << "NGCEXT: packet too small, missing sequence_id\n"; return false) for (size_t i = 0; i < sizeof(e.sequence_id); i++, curser++) { e.sequence_id |= uint32_t(data[curser]) << (i*8); } // - X bytes (the data fragment) // (size is implicit) e.data = {data+curser, data+curser+(data_size-curser)}; return dispatch( NGCEXT_Event::FT1_DATA, e ); } bool NGCEXTEventProvider::parse_ft1_data_ack( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool _private ) { if (!_private) { std::cerr << "NGCEXT: ft1_data_ack cant be public\n"; return false; } Events::NGCEXT_ft1_data_ack e; e.group_number = group_number; e.peer_number = peer_number; size_t curser = 0; // - 1 byte (temporary_file_tf_id) _DATA_HAVE(sizeof(e.transfer_id), std::cerr << "NGCEXT: packet too small, missing transfer_id\n"; return false) e.transfer_id = data[curser++]; while (curser < data_size) { _DATA_HAVE(sizeof(uint16_t), std::cerr << "NGCEXT: packet too small, missing seq_id\n"; return false) uint16_t seq_id = data[curser++]; seq_id |= data[curser++] << (1*8); e.sequence_ids.push_back(seq_id); } return dispatch( NGCEXT_Event::FT1_DATA_ACK, e ); } bool NGCEXTEventProvider::parse_ft1_message( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool _private ) { if (_private) { std::cerr << "NGCEXT: ft1_message cant be private (yet)\n"; return false; } Events::NGCEXT_ft1_message e; e.group_number = group_number; e.peer_number = peer_number; size_t curser = 0; // - 4 byte (message_id) e.message_id = 0u; _DATA_HAVE(sizeof(e.message_id), std::cerr << "NGCEXT: packet too small, missing message_id\n"; return false) for (size_t i = 0; i < sizeof(e.message_id); i++, curser++) { e.message_id |= uint32_t(data[curser]) << (i*8); } // - 4 byte (file_kind) e.file_kind = 0u; _DATA_HAVE(sizeof(e.file_kind), std::cerr << "NGCEXT: packet too small, missing file_kind\n"; return false) for (size_t i = 0; i < sizeof(e.file_kind); i++, curser++) { e.file_kind |= uint32_t(data[curser]) << (i*8); } // - X bytes (file_kind dependent id, differnt sizes) e.file_id = {data+curser, data+curser+(data_size-curser)}; return dispatch( NGCEXT_Event::FT1_MESSAGE, e ); } bool NGCEXTEventProvider::parse_ft1_init_ack_v2( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool _private ) { if (!_private) { std::cerr << "NGCEXT: ft1_init_ack_v2 cant be public\n"; return false; } Events::NGCEXT_ft1_init_ack e; e.group_number = group_number; e.peer_number = peer_number; size_t curser = 0; // - 1 byte (temporary_file_tf_id) _DATA_HAVE(sizeof(e.transfer_id), std::cerr << "NGCEXT: packet too small, missing transfer_id\n"; return false) e.transfer_id = data[curser++]; // - 2 byte (max_lossy_data_size) if ((data_size - curser) >= sizeof(e.max_lossy_data_size)) { e.max_lossy_data_size = 0; for (size_t i = 0; i < sizeof(e.max_lossy_data_size); i++, curser++) { e.max_lossy_data_size |= uint16_t(data[curser]) << (i*8); } } else { e.max_lossy_data_size = 500-4; // default } return dispatch( NGCEXT_Event::FT1_INIT_ACK, e ); } bool NGCEXTEventProvider::parse_ft1_have( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool _private ) { if (!_private) { std::cerr << "NGCEXT: ft1_have cant be public\n"; return false; } Events::NGCEXT_ft1_have e; e.group_number = group_number; e.peer_number = peer_number; size_t curser = 0; // - 4 byte (file_kind) e.file_kind = 0u; _DATA_HAVE(sizeof(e.file_kind), std::cerr << "NGCEXT: packet too small, missing file_kind\n"; return false) for (size_t i = 0; i < sizeof(e.file_kind); i++, curser++) { e.file_kind |= uint32_t(data[curser]) << (i*8); } // - X bytes (file_kind dependent id, differnt sizes) uint16_t file_id_size = 0u; _DATA_HAVE(sizeof(file_id_size), std::cerr << "NGCEXT: packet too small, missing file_id_size\n"; return false) for (size_t i = 0; i < sizeof(file_id_size); i++, curser++) { file_id_size |= uint32_t(data[curser]) << (i*8); } _DATA_HAVE(file_id_size, std::cerr << "NGCEXT: packet too small, missing file_id, or file_id_size too large\n"; return false) e.file_id = {data+curser, data+curser+file_id_size}; curser += file_id_size; // - array [ // - 4 bytes (chunk index) // - ] while (curser < data_size) { _DATA_HAVE(sizeof(uint32_t), std::cerr << "NGCEXT: packet too small, broken chunk index\n"; return false) uint32_t chunk_index = 0u; for (size_t i = 0; i < sizeof(chunk_index); i++, curser++) { chunk_index |= uint32_t(data[curser]) << (i*8); } e.chunks.push_back(chunk_index); } return dispatch( NGCEXT_Event::FT1_HAVE, e ); } bool NGCEXTEventProvider::parse_ft1_bitset( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool _private ) { if (!_private) { std::cerr << "NGCEXT: ft1_bitset cant be public\n"; return false; } Events::NGCEXT_ft1_bitset e; e.group_number = group_number; e.peer_number = peer_number; size_t curser = 0; // - 4 byte (file_kind) e.file_kind = 0u; _DATA_HAVE(sizeof(e.file_kind), std::cerr << "NGCEXT: packet too small, missing file_kind\n"; return false) for (size_t i = 0; i < sizeof(e.file_kind); i++, curser++) { e.file_kind |= uint32_t(data[curser]) << (i*8); } // - X bytes (file_kind dependent id, differnt sizes) uint16_t file_id_size = 0u; _DATA_HAVE(sizeof(file_id_size), std::cerr << "NGCEXT: packet too small, missing file_id_size\n"; return false) for (size_t i = 0; i < sizeof(file_id_size); i++, curser++) { file_id_size |= uint32_t(data[curser]) << (i*8); } _DATA_HAVE(file_id_size, std::cerr << "NGCEXT: packet too small, missing file_id, or file_id_size too large\n"; return false) e.file_id = {data+curser, data+curser+file_id_size}; curser += file_id_size; e.start_chunk = 0u; _DATA_HAVE(sizeof(e.start_chunk), std::cerr << "NGCEXT: packet too small, missing start_chunk\n"; return false) for (size_t i = 0; i < sizeof(e.start_chunk); i++, curser++) { e.start_chunk |= uint32_t(data[curser]) << (i*8); } // - X bytes // - array [ // - 1 bit (have chunk) // - ] (filled up with zero) // high to low? // simply rest of file packet e.chunk_bitset = {data+curser, data+curser+(data_size-curser)}; return dispatch( NGCEXT_Event::FT1_BITSET, e ); } bool NGCEXTEventProvider::parse_ft1_have_all( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool _private ) { // can be public // TODO: warn on public? Events::NGCEXT_ft1_have_all e; e.group_number = group_number; e.peer_number = peer_number; size_t curser = 0; // - 4 byte (file_kind) e.file_kind = 0u; _DATA_HAVE(sizeof(e.file_kind), std::cerr << "NGCEXT: packet too small, missing file_kind\n"; return false) for (size_t i = 0; i < sizeof(e.file_kind); i++, curser++) { e.file_kind |= uint32_t(data[curser]) << (i*8); } _DATA_HAVE(1, std::cerr << "NGCEXT: packet too small, missing file_id\n"; return false) // - X bytes (file_id, differnt sizes) e.file_id = {data+curser, data+curser+(data_size-curser)}; return dispatch( NGCEXT_Event::FT1_HAVE_ALL, e ); } bool NGCEXTEventProvider::parse_pc1_announce( uint32_t group_number, uint32_t peer_number, const uint8_t* data, size_t data_size, bool _private ) { // can be public Events::NGCEXT_pc1_announce e; e.group_number = group_number; e.peer_number = peer_number; size_t curser = 0; // - X bytes (id, differnt sizes) e.id = {data+curser, data+curser+(data_size-curser)}; return dispatch( NGCEXT_Event::PC1_ANNOUNCE, e ); } bool NGCEXTEventProvider::handlePacket( const uint32_t group_number, const uint32_t peer_number, const uint8_t* data, const size_t data_size, const bool _private ) { if (data_size < 1) { return false; // waht } NGCEXT_Event pkg_type = static_cast(data[0]); switch (pkg_type) { case NGCEXT_Event::HS1_REQUEST_LAST_IDS: return false; case NGCEXT_Event::HS1_RESPONSE_LAST_IDS: return false; case NGCEXT_Event::FT1_REQUEST: return parse_ft1_request(group_number, peer_number, data+1, data_size-1, _private); case NGCEXT_Event::FT1_INIT: return parse_ft1_init(group_number, peer_number, data+1, data_size-1, _private); case NGCEXT_Event::FT1_INIT_ACK: //return parse_ft1_init_ack(group_number, peer_number, data+1, data_size-1, _private); return parse_ft1_init_ack_v2(group_number, peer_number, data+1, data_size-1, _private); case NGCEXT_Event::FT1_DATA: return parse_ft1_data(group_number, peer_number, data+1, data_size-1, _private); case NGCEXT_Event::FT1_DATA_ACK: return parse_ft1_data_ack(group_number, peer_number, data+1, data_size-1, _private); case NGCEXT_Event::FT1_MESSAGE: return parse_ft1_message(group_number, peer_number, data+1, data_size-1, _private); case NGCEXT_Event::FT1_HAVE: return parse_ft1_have(group_number, peer_number, data+1, data_size-1, _private); case NGCEXT_Event::FT1_BITSET: return parse_ft1_bitset(group_number, peer_number, data+1, data_size-1, _private); case NGCEXT_Event::FT1_HAVE_ALL: return parse_ft1_have_all(group_number, peer_number, data+1, data_size-1, _private); case NGCEXT_Event::PC1_ANNOUNCE: return parse_pc1_announce(group_number, peer_number, data+1, data_size-1, _private); default: return false; } return false; } bool NGCEXTEventProvider::send_ft1_request( uint32_t group_number, uint32_t peer_number, uint32_t file_kind, const uint8_t* file_id, size_t file_id_size ) { // - 1 byte packet id // - 4 byte file_kind // - X bytes file_id std::vector pkg; pkg.push_back(static_cast(NGCEXT_Event::FT1_REQUEST)); for (size_t i = 0; i < sizeof(file_kind); i++) { pkg.push_back((file_kind>>(i*8)) & 0xff); } for (size_t i = 0; i < file_id_size; i++) { pkg.push_back(file_id[i]); } // lossless return _t.toxGroupSendCustomPrivatePacket(group_number, peer_number, true, pkg) == TOX_ERR_GROUP_SEND_CUSTOM_PRIVATE_PACKET_OK; } bool NGCEXTEventProvider::send_ft1_init( uint32_t group_number, uint32_t peer_number, uint32_t file_kind, uint64_t file_size, uint8_t transfer_id, const uint8_t* file_id, size_t file_id_size ) { // - 1 byte packet id // - 4 byte (file_kind) // - 8 bytes (data size) // - 1 byte (temporary_file_tf_id, for this peer only, technically just a prefix to distinguish between simultainious fts) // - X bytes (file_kind dependent id, differnt sizes) std::vector pkg; pkg.push_back(static_cast(NGCEXT_Event::FT1_INIT)); for (size_t i = 0; i < sizeof(file_kind); i++) { pkg.push_back((file_kind>>(i*8)) & 0xff); } for (size_t i = 0; i < sizeof(file_size); i++) { pkg.push_back((file_size>>(i*8)) & 0xff); } pkg.push_back(transfer_id); for (size_t i = 0; i < file_id_size; i++) { pkg.push_back(file_id[i]); } // lossless return _t.toxGroupSendCustomPrivatePacket(group_number, peer_number, true, pkg) == TOX_ERR_GROUP_SEND_CUSTOM_PRIVATE_PACKET_OK; } bool NGCEXTEventProvider::send_ft1_init_ack( uint32_t group_number, uint32_t peer_number, uint8_t transfer_id ) { // - 1 byte packet id // - 1 byte transfer_id std::vector pkg; pkg.push_back(static_cast(NGCEXT_Event::FT1_INIT_ACK)); pkg.push_back(transfer_id); // - 2 bytes max_lossy_data_size const uint16_t max_lossy_data_size = _t.toxGroupMaxCustomLossyPacketLength() - 4; for (size_t i = 0; i < sizeof(uint16_t); i++) { pkg.push_back((max_lossy_data_size>>(i*8)) & 0xff); } // lossless return _t.toxGroupSendCustomPrivatePacket(group_number, peer_number, true, pkg) == TOX_ERR_GROUP_SEND_CUSTOM_PRIVATE_PACKET_OK; } bool NGCEXTEventProvider::send_ft1_data( uint32_t group_number, uint32_t peer_number, uint8_t transfer_id, uint16_t sequence_id, const uint8_t* data, size_t data_size ) { assert(data_size > 0); // TODO // check header_size+data_size <= max pkg size std::vector pkg; pkg.reserve(2048); // saves a ton of allocations pkg.push_back(static_cast(NGCEXT_Event::FT1_DATA)); pkg.push_back(transfer_id); pkg.push_back(sequence_id & 0xff); pkg.push_back((sequence_id >> (1*8)) & 0xff); // TODO: optimize for (size_t i = 0; i < data_size; i++) { pkg.push_back(data[i]); } // lossy return _t.toxGroupSendCustomPrivatePacket(group_number, peer_number, false, pkg) == TOX_ERR_GROUP_SEND_CUSTOM_PRIVATE_PACKET_OK; } bool NGCEXTEventProvider::send_ft1_data_ack( uint32_t group_number, uint32_t peer_number, uint8_t transfer_id, const uint16_t* seq_ids, size_t seq_ids_size ) { std::vector pkg; pkg.reserve(1+1+2*32); // 32acks in a single pkg should be unlikely pkg.push_back(static_cast(NGCEXT_Event::FT1_DATA_ACK)); pkg.push_back(transfer_id); // TODO: optimize for (size_t i = 0; i < seq_ids_size; i++) { pkg.push_back(seq_ids[i] & 0xff); pkg.push_back((seq_ids[i] >> (1*8)) & 0xff); } // lossy return _t.toxGroupSendCustomPrivatePacket(group_number, peer_number, false, pkg) == TOX_ERR_GROUP_SEND_CUSTOM_PRIVATE_PACKET_OK; } bool NGCEXTEventProvider::send_all_ft1_message( uint32_t group_number, uint32_t message_id, uint32_t file_kind, const uint8_t* file_id, size_t file_id_size ) { std::vector pkg; pkg.push_back(static_cast(NGCEXT_Event::FT1_MESSAGE)); for (size_t i = 0; i < sizeof(message_id); i++) { pkg.push_back((message_id>>(i*8)) & 0xff); } for (size_t i = 0; i < sizeof(file_kind); i++) { pkg.push_back((file_kind>>(i*8)) & 0xff); } for (size_t i = 0; i < file_id_size; i++) { pkg.push_back(file_id[i]); } // lossless return _t.toxGroupSendCustomPacket(group_number, true, pkg) == TOX_ERR_GROUP_SEND_CUSTOM_PACKET_OK; } bool NGCEXTEventProvider::send_ft1_have( uint32_t group_number, uint32_t peer_number, uint32_t file_kind, const uint8_t* file_id, size_t file_id_size, const uint32_t* chunks_data, size_t chunks_size ) { // 16bit file id size assert(file_id_size <= 0xffff); if (file_id_size > 0xffff) { return false; } std::vector pkg; pkg.push_back(static_cast(NGCEXT_Event::FT1_HAVE)); for (size_t i = 0; i < sizeof(file_kind); i++) { pkg.push_back((file_kind>>(i*8)) & 0xff); } // file id not last in packet, needs explicit size const uint16_t file_id_size_cast = file_id_size; for (size_t i = 0; i < sizeof(file_id_size_cast); i++) { pkg.push_back((file_id_size_cast>>(i*8)) & 0xff); } for (size_t i = 0; i < file_id_size; i++) { pkg.push_back(file_id[i]); } // rest is chunks for (size_t c_i = 0; c_i < chunks_size; c_i++) { for (size_t i = 0; i < sizeof(chunks_data[c_i]); i++) { pkg.push_back((chunks_data[c_i]>>(i*8)) & 0xff); } } // lossless return _t.toxGroupSendCustomPrivatePacket(group_number, peer_number, true, pkg) == TOX_ERR_GROUP_SEND_CUSTOM_PRIVATE_PACKET_OK; } bool NGCEXTEventProvider::send_ft1_bitset( uint32_t group_number, uint32_t peer_number, uint32_t file_kind, const uint8_t* file_id, size_t file_id_size, uint32_t start_chunk, const uint8_t* bitset_data, size_t bitset_size // size is bytes ) { std::vector pkg; pkg.push_back(static_cast(NGCEXT_Event::FT1_BITSET)); for (size_t i = 0; i < sizeof(file_kind); i++) { pkg.push_back((file_kind>>(i*8)) & 0xff); } // file id not last in packet, needs explicit size const uint16_t file_id_size_cast = file_id_size; for (size_t i = 0; i < sizeof(file_id_size_cast); i++) { pkg.push_back((file_id_size_cast>>(i*8)) & 0xff); } for (size_t i = 0; i < file_id_size; i++) { pkg.push_back(file_id[i]); } for (size_t i = 0; i < sizeof(start_chunk); i++) { pkg.push_back((start_chunk>>(i*8)) & 0xff); } for (size_t i = 0; i < bitset_size; i++) { pkg.push_back(bitset_data[i]); } // lossless return _t.toxGroupSendCustomPrivatePacket(group_number, peer_number, true, pkg) == TOX_ERR_GROUP_SEND_CUSTOM_PRIVATE_PACKET_OK; } bool NGCEXTEventProvider::send_ft1_have_all( uint32_t group_number, uint32_t peer_number, uint32_t file_kind, const uint8_t* file_id, size_t file_id_size ) { std::vector pkg; pkg.push_back(static_cast(NGCEXT_Event::FT1_BITSET)); for (size_t i = 0; i < sizeof(file_kind); i++) { pkg.push_back((file_kind>>(i*8)) & 0xff); } for (size_t i = 0; i < file_id_size; i++) { pkg.push_back(file_id[i]); } // lossless return _t.toxGroupSendCustomPrivatePacket(group_number, peer_number, true, pkg) == TOX_ERR_GROUP_SEND_CUSTOM_PRIVATE_PACKET_OK; } static std::vector build_pc1_announce(const uint8_t* id_data, size_t id_size) { // - 1 byte packet id // - X bytes (id, differnt sizes) std::vector pkg; pkg.push_back(static_cast(NGCEXT_Event::PC1_ANNOUNCE)); for (size_t i = 0; i < id_size; i++) { pkg.push_back(id_data[i]); } return pkg; } bool NGCEXTEventProvider::send_pc1_announce( uint32_t group_number, uint32_t peer_number, const uint8_t* id_data, size_t id_size ) { auto pkg = build_pc1_announce(id_data, id_size); std::cout << "NEEP: sending PC1_ANNOUNCE s:" << pkg.size() - sizeof(NGCEXT_Event::PC1_ANNOUNCE) << "\n"; // lossless? return _t.toxGroupSendCustomPrivatePacket(group_number, peer_number, true, pkg) == TOX_ERR_GROUP_SEND_CUSTOM_PRIVATE_PACKET_OK; } bool NGCEXTEventProvider::send_all_pc1_announce( uint32_t group_number, const uint8_t* id_data, size_t id_size ) { auto pkg = build_pc1_announce(id_data, id_size); std::cout << "NEEP: sending all PC1_ANNOUNCE s:" << pkg.size() - sizeof(NGCEXT_Event::PC1_ANNOUNCE) << "\n"; // lossless? return _t.toxGroupSendCustomPacket(group_number, true, pkg) == TOX_ERR_GROUP_SEND_CUSTOM_PACKET_OK; } bool NGCEXTEventProvider::onToxEvent(const Tox_Event_Group_Custom_Packet* e) { const auto group_number = tox_event_group_custom_packet_get_group_number(e); const auto peer_number = tox_event_group_custom_packet_get_peer_id(e); const uint8_t* data = tox_event_group_custom_packet_get_data(e); const auto data_length = tox_event_group_custom_packet_get_data_length(e); return handlePacket(group_number, peer_number, data, data_length, false); } bool NGCEXTEventProvider::onToxEvent(const Tox_Event_Group_Custom_Private_Packet* e) { const auto group_number = tox_event_group_custom_private_packet_get_group_number(e); const auto peer_number = tox_event_group_custom_private_packet_get_peer_id(e); const uint8_t* data = tox_event_group_custom_private_packet_get_data(e); const auto data_length = tox_event_group_custom_private_packet_get_data_length(e); return handlePacket(group_number, peer_number, data, data_length, true); }